وبلاگ پزشکی مولکولی -بالینی 1356

News  12 Dec.2013

Cancer Causes and Control, 12/12/2013  

Cardwel CR, et al. – Aspirin use is associated with reduced risk of, and death from, prostate cancer. This stuy aim was to determine whether low–dose aspirin use after a prostate cancer diagnosis was associated with reduced prostate cancer–specific mortality. The authors found no evidence of an association between low–dose aspirin use before or after diagnosis and risk of prostate cancer–specific mortality, after potential confounders were accounted for, in UK prostate cancer patients.

Methods :A cohort of newly diagnosed prostate cancer patients (1998–2006) was identified in the UK Clinical Practice Research Datalink (confirmed by cancer registry linkage). A nested case–control analysis was conducted using conditional logistic regression to compare aspirin usage in cases (prostate cancer deaths) with up to three controls (matched by age and year of diagnosis) .

Results :Post–diagnostic low–dose aspirin use was identified in 52 % of 1,184 prostate cancer–specific deaths and 39 % of 3,531 matched controls (unadjusted OR 1.51, 95 % CI 1.19, 1.90; p < 0.001). After adjustment for confounders including treatment and comorbidities, this association was attenuated (adjusted OR 1.02 95 % CI 0.78, 1.34; p = 0.86). Adjustment for estrogen therapy accounted for the majority of this attenuation.

There was also no evidence of dose–response association after adjustments. Compared with no use, patients with 1–11 prescriptions and 12 or more prescriptions had adjusted ORs of 1.07 (95 % CI 0.78, 1.47; p = 0.66) and 0.97 (95 % CI 0.69, 1.37; p = 0.88), respectively. There was no evidence of a protective association between low–dose aspirin use in the year prior to diagnosis and prostate cancer–specific mortality (adjusted OR 1.04 95 % CI 0.89, 1.22;p = 0.60).

Brief Urology article  12 Dec.2013

1.Tanya Stoyanova^a,

2.Aaron R. Cooper^b,

3.Justin M. Drake^a,

4.Xian Liu^c,

5.Andrew J. Armstrong^d,

6.Kenneth J. Pienta^e,

7.Hong Zhang^f,

8.Donald B. Kohn^a,^g,^h,

9.Jiaoti Huang^f,^g,^h,

10.Owen N. Witte^a,^c,^g,^h,ⁱ,¹, and

11.Andrew S. Goldstein^c,^g,^h,^j,¹

^aMicrobiology,mmunology and Molecular Genetics, ^bMolecular Biology Interdepartmental Ph.D. Program, ^cDepartments of Molecular and Medical Pharmacology, ^fPathology and Laboratory Medicine, ^gJonsson Comprehensive Cancer Center, David Geffen School of Medicine, ^hEli and Edythe Broad Center of Regenerative Medicine and Stem Cell Research, ⁱHoward Hughes Medical Institute, and ^jDepartment of Urology, University of California, Los Angeles, CA 90095; ^dDuke Cancer Institute, Duke University Medical Center, Durham, NC 27710; and ^eBrady Urological Institute, The Johns Hopkins School of Medicine, Baltimore, MD 21287

The relationship between the cells that initiate cancer and the cancer stem-like cells that propagate tumors has been poorly defined. In a human prostate tissue transformation model, basal cells expressing the oncogenes Myc and myristoylated AKT can initiate heterogeneous tumors. Tumors contain features of acinar-type adenocarcinoma with elevated eIF4E-driven protein translation and squamous cell carcinoma marked by activated beta-catenin. Lentiviral integration site analysis revealed that alternative histological phenotypes can be clonally derived from a common cell of origin. In advanced disease, adenocarcinoma can be propagated by self-renewing tumor cells with an androgen receptor-low immature luminal phenotype in the absence of basal-like cells.

These data indicate that advanced prostate adenocarcinoma initiated in basal cells can be maintained by luminal-like tumor-propagating cells. Determining the cells that maintain human prostate adenocarcinoma and the signaling pathways characterizing these tumor-propagating cells is critical for developing effective therapeutic strategies against this population.

Tumors that arise from a given tissue in the body exhibit heterogeneity with respect to their molecular alterations, biological behavior, and response to therapy .Such variation presents a serious challenge for clinical cancer management. In many organ sites, tumors have been classified into subtypes based on their molecular and histological features .Subtypes of cancer can reflect distinct states of differentiation within a given tissue, leading Visvader and coworkers to propose that different epithelial tumor subtypes can arise from transformation of distinct cells of origin with different developmental potential .Functional studies in the mouse mammary gland and mouse lung support this model .However, there is limited functional evidence for such a mechanism in human epithelial cancer.

Several recent studies using mouse models have revealed that the same phenotypic cell that initiates cancer can be responsible for tumor maintenance or propagation. Lgr5+ intestinal stem cells can initiate and maintain murine intestinal adenomas .In mouse models of skin cancer, hair follicle bulge stem cells can serve as target cells for transformation and CD34+ cells resembling their normal bulge stem cell counterpart are capable of propagating the disease as a cancer stem cell population .Mouse models of breast cancer demonstrate that tumors can arise from the transformation of luminal cells ,and recent studies using human tumor samples indicate that breast cancer can also be propagated by luminal-like cells .In most human epithelial cancers it has not been determined whether the cell types that give rise to cancer are also capable of maintaining advanced disease.

The predominant histological subtype of prostate cancer is acinar-type adenocarcinoma ,with features of luminal secretory cells, rare neuroendocrine cells, and an absence of basal cells. A number of less common histological variants are found in prostate cancer, including small cell carcinoma and squamous cell carcinoma.

Both of these variants are associated with poor prognosis, aggressive disease, and resistance to hormonal therapy (androgen deprivation and/or androgen receptor blockade) .Small-cell carcinoma is characterized by proliferating neuroendocrine cells and loss of p53 .Squamous cancers have features of basal cells and can occur either in the context of adenocarcinoma or alone as squamous cell carcinoma .Based on their different phenotypes and response to hormonal therapy, different histological variants of prostate cancer are predicted to arise from distinct cells of origin .

The relationship between the cells that initiate and maintain human prostate adenocarcinoma is not known. Naïve human prostate basal cells can initiate acinar-type adenocarcinoma in response to oncogenic stimulation .Consistent with these findings, basal cells from the BPH-1 human prostate cell line can initiate human prostate cancer in response to combined estrogen and testosterone treatment .These collective data suggest that human prostate tumors may set aside a subset of basal cells within the tumor to ensure continuous production of malignant luminal-like cancer cells.

Human prostate cancer cells with a basal phenotype have been reported to produce luminal cancer progeny in vitro .Using cell lines that were originally derived from human prostate tumors, it was shown that basal cell marker CD44 enriched for tumor-propagating cells in the absence of differentiated luminal cell markers .A recent study demonstrates that advanced chemotherapy-resistant prostate cancer is maintained by cells lacking basal or luminal cytokeratins (19). No study has defined the role of basal or luminal-like cells isolated directly from primary human prostate cancer in tumor propagation.

In the present study, we use a tissue-regeneration model of human prostate cancer to determine whether the cells at the origin of prostate cancer are continually required to maintain the disease as tumor-propagating cells. Benign cell populations isolated from primary human prostate tissue were first tested for their susceptibility to transformation by defined oncogenes.

In the resulting tumors, cancer cell populations were further transplanted to define the cells capable of propagating the disease. Tumors driven by expression of oncogenes Myc and myristoylated/activated AKT (myrAKT) initiating in basal cells exhibit features of both adenocarcinoma and squamous cell carcinoma with different signaling pathways characteristic of each histological pattern. eIF4E-driven protein translation pathway is elevated in adenocarcinoma, whereas activation of beta-catenin is associated with squamous differentiation in experimental and clinical human prostate cancer. Using lentiviral integration site analysis, we determined that alternative histological phenotypes of prostate cancer can arise from a clonal cell of origin. Adenocarcinoma can be serially propagated by cells with a luminal phenotype.

Our results indicate that cancer initiated in basal cells can evolve to adenocarcinoma maintained by luminal-like cells.

Copyright © 2013 National Academy of Sciences.

New  11 Dec.2013

December 9, 2013

Zinc, an essential nutrient, is found in every tissue in the body. The vast majority of the metal ion is tightly bound to proteins, helping them to perform biological reactions. Tiny amounts of zinc, however, are only loosely bound, or “mobile,” and thought to be critical for proper function in organs such as the brain, pancreas, and prostate gland. Yet the exact roles the ion plays in biological systems are unknown.

A new optical sensor created at MIT tracks zinc within cells and should help researchers learn more about its functions. The sensor, which can be targeted to a specific organelle within the cell, fluoresces when it binds to zinc, allowing scientists to determine where the metal is concentrated.

The MIT chemists who designed the sensor have already used it to shed light on why zinc levels, normally high in the prostate, drop dramatically in cancerous prostate cells.

“We can use these tools to study zinc trafficking within prostate cells, both healthy and diseased. By doing so we’re trying to gain insight into how zinc levels within the cell change during the progression of prostate cancer,” says Robert Radford, an MIT postdoc who led the project and who is an author of the paper describing the sensors, which appears in the Dec. 9 issue of the Proceedings of the National Academy of Sciences.

Radford works in the lab of Stephen Lippard, the Arthur Amos Noyes Professor of Chemistry, a member of MIT's Koch Institute for Integrative Cancer Research, and senior author of the paper. The paper’s lead author is Wen Chyan, a 2013 MIT graduate.

Researchers in Lippard’s lab are now working on exploiting similar fluorescent sensors to develop a diagnostic test for early detection of prostate cancer, which is the second leading cause of cancer death in American men, but is considered very treatable if caught early enough.

Pathway to cancer

Among its known roles, zinc helps to stabilize protein structure and catalyzes some cellular reactions. In the prostate, zinc is believed to help with reproductive functions by aiding in the accumulation of citrate, a component of semen. Within mitochondria of epithelial prostate cells, zinc has been shown to inhibit the metabolic enzyme aconitase. By blocking the activity of aconitase, zinc truncates the citric acid cycle, the series of reactions that produce ATP, the cells’ major energy currency.

Scientists have theorized that when prostate cells become cancerous, they banish zinc from mitochondria (the cell structures where most ATP production occurs). This allows the cancer cell to produce the extra energy it needs to grow and divide.

“If a cell is dividing uncontrollably and it needs a lot of chemical energy, then it definitely wouldn’t want zinc interfering with aconitase and preventing production of more ATP,” Radford says.

The new MIT study supports this theory by showing that, although cancerous prostate cells can absorb zinc, the metal does not accumulate in the mitochondria, as it does in normal prostate cells.

This finding suggests that, in normal cells, zinc is probably transported into mitochondria by a specialized transport protein, but such a protein has not been identified, Radford says. In cancer cells, this protein might be inactivated.

The new zinc sensor relies on a molecule that Lippard’s lab first developed more than 10 years ago, known as Zinpyr1 (ZP1). ZP1 is based on a dye known as fluorescein, but it is modified to fluoresce only when it binds to zinc.

The ZP1 sensor can simply be added to a dish of cells grown in the lab, where it will diffuse into the cells. Until now, a major drawback of the sensor was the difficulty in targeting specific structures within a cell. “We have had some success using proteins and peptides to target small molecule zinc sensors,” Radford says, “but most of the time the sensors get captured in acidic vesicles within the cell and become inactive.”

Lippard’s team overcame that obstacle by making two changes: First, they installed a zinc-reactive protecting group, which altered the physical properties of the sensor and made it easier to target. Second, they attached an “address tag” that directs ZP1 into mitochondria. This tag, which is a derivative of triphenylphosphonium, is tailored to enter the mitochondria because it is both positively charged and hydrophobic. The resulting sensor readily entered cells and allowed the researchers to visualize pools of mobile zinc within mitochondria.

“This is an exciting new concept for sensing using a combination of reaction- and recognition-based approaches, which has potential applications for diagnostics involving zinc misregulation,” says Christopher Chang, a professor of chemistry and molecular and cell biology at the University of California at Berkeley who was not part of the research team.

In future studies, the researchers plan to expand their strategy to create a palette of sensors that target many other organelles in the cell.

“The identification of intracellular targets for mobile zinc is an important step in understanding its true function in biological signaling. The next steps will involve discovery of the specific biochemical pathways that are affected by zinc binding to receptors in the organelles, such as proteins, and elucidating the structural and attendant functional changes that occur in the process,” Lippard says.

The lab’s immediate interest is study of zinc in the brain, where it is believed to act as a neurotransmitter. By understanding mobile zinc in the auditory cortex, optic nerve, and olfactory bulb, the researchers hope to figure out its role in the senses of hearing, sight, and smell.

The research was funded by the National Institute of General Medical Sciences.

News 11 Dec.2013

Trenis D Palmer1, Carlo H Martinez2, Catalina Vasquez2, Katie Hebron1, Celestial Jones-Paris3,

¹Pathology, Microbiology and Immunology, Vanderbilt University Medical Center ²Translational Prostate Cancer Research Group, London Regional Cancer Program ³Division of Allergy, Pulmonary and Critical Care Medicine, Vanderbilt University School of Medicine

 Normal physiology relies on the organization of transmembrane proteins by molecular scaffolds, such as tetraspanins. Oncogenesis frequently involves changes in their organization or expression. The tetraspanin CD151 is thought to contribute to cancer progression through direct interaction with the laminin-binding integrins α3β1 and α6β1.

However, this interaction cannot explain the ability of CD151 to control migration in the absence of these integrins or on non-laminin substrates. We demonstrate that CD151 can regulate tumor cell migration without direct integrin binding and that integrin-free CD151 (CD151free) correlates clinically with tumor progression and metastasis. Clustering CD151free through its integrin-binding domain promotes accumulation in areas of cell-cell contact leading to enhanced adhesion and inhibition of tumor cell motility in vitro and in vivo.

 CD151free clustering is a strong regulator of motility even in the absence of α3 expression but requires PKCα, suggesting that CD151 can control migration independent of its integrin associations. The histological detection of CD151free in prostate cancer correlates with poor patient outcome. When CD151free is present, patients are more likely to recur after radical prostatectomy and progression to metastatic disease is accelerated. Multivariable analysis identifies CD151free as an independent predictor of survival. Moreover, the detection of CD151free can stratify survival among patients with elevated PSA.

Cumulatively these studies demonstrate that a subpopulation of CD151 exists on the surface of tumor cells that can regulate migration independent of its integrin partner. The clinical correlation of CD151free with prostate cancer progression suggests that it may contribute to the disease and predict cancer progression.

Copyright © 2013, American Association for Cancer Research. 

News  11Dec.2013

Reasons and predictive factors for discontinuation of PDE-5 inhibitors despite successful intercourse in ED patients

S-C Kim¹, Y-S Lee², K-K Seo³, G-W Jung⁴ and T-H Kim⁵

¹Department of Urology, Kwandong University MyongJi Hospital, Goyang, Gyeonggi-do, Korea ²Seo Kyung-Keun Urology Clinic, Cheonan, Korea ³Dr Cho&Lee’s Urology Clinic, Seoul, Korea ⁴Smile Jung Gyung-Woo Urology Clinic, Busan, Korea  ⁵Department of Urology, Chung-Ang University Hospital, Seoul, Korea       5 December 2013

This study was aimed to identify characteristics of ED patients who discontinued PDE5i despite successful intercourse. Data were collected using a questionnaire from 34 urologic clinics regardless of the effect (success or failure) of PDE5i treatment by visiting the clinics (717), e-mail (64) or post (101) for 882 ED patients who had previously taken any kind of PDE5i on demand four or more times.

Discontinuation of PDE5i was defined if the patient had never taken PDE5i for the previous 1 year despite successful intercourse. Of the 882 patients, 485 were included in the final analysis. Difference in the socio-demographic, ED- and partner-related data between the continuation and discontinuation group and factors influencing discontinuation of the PDE5i were analyzed. Among 485 respondents (mean age, 53.6), 116 (23.9%) had discontinued PDE5i use despite successful intercourse. Most common reasons for the discontinuation were ‘reluctant medication-dependent intercourse’ (31.0%), ‘spontaneous recovery of erectile function without further treatment’ (30.2%), and ‘high cost’ (26.7%).

In multiple logistic regression analysis, independent factors influencing discontinuation of the drug were cause of ED (psychogenic), short duration of ED, low education ( middle school), and religion (Catholic). In partner-related compliance, only partner’s religion (Catholic) was a significant factor.

International Journal of Impotence Research advance online publication 5 December 2013; doi: 10.1038/ijir.2013.41

1- Prostate cancer: Diffusion-weighted imaging versus dynamic-contrast enhanced imaging for tumor localization-a meta-analysis Journal of Computer Assisted Tomography, December 11, 2013    Evidence Based Medicine    

2- Spine metastases in prostate cancer: Comparison of [99mTc]MDp wholebody bone scintigraphy, [18F]choline PET/CT, and [18F]NaF PET/CT BJU International, December 11, 2013   

3- Experience of treating high risk prostate hyperplasia patients with a HPS120 laser   BMC Urology, December 11, 2013   

4- Robotic versus open simple enucleation for the treatment of T1a-T1b renal cell carcinoma: A single center matched-pair comparison   Urology, December 11, 2013    

5- Use of symptom-relieving drugs before and after surgery for urinary incontinence in women: A cohort study BMJ Open, December 11, 2013    

6- Current status of MRI and ultrasound fusion software platforms for guidance of prostate biopsies BJU International, December 11, 2013    

7 -High mitochondria content is associated with prostate cancer disease progression Molecular Cancer, December 11, 2013    

8- Survival prediction in everolimus-treated patients with metastatic renal cell carcinoma incorporating tumor burden response in the record-1 trial           European Urology, December 11, 2013    

9 -Utility of MRI features in differentiation of central renal cell carcinoma and renal pelvic urothelial carcinoma American Journal of Roentgenology, December 11, 2013    

10 -Multiparametric magnetic resonance imaging characterization of prostate lesions in the active surveillance population: Incremental value of magnetic resonance imaging for prediction of disease reclassification Journal of Computer Assisted Tomography, December 11, 2013    

11 -Expression of cyclin D1 and its association with disease characteristics in bladder cancer Anticancer Research, December 11, 2013    

12 -Impact of symptom improvement on patients bother and quality of life in female patients with overactive bladder treated by solifenacin (SET-Q) Full Text International Journal of Urology, December 11, 2013    

13- Morphologic features of 211 adrenal masses at initial contrast-enhanced CT: Can we differentiate benign from malignant lesions using imaging features alone American Journal of Roentgenology, December 11, 2013    

14- Multivisceral transplantation for the treatment of intra-abdominal tumors Transplantation Proceedings, December 11, 2013    

15 -Percutaneous microwave ablation of renal cell carcinoma is safe in patients with a solitary kidney Urology, December 11, 2013    

16 -Differentiation of high lipid content from low lipid content adrenal lesions using single-source rapid kilovolt (peak)-switching dual-energy multidetector CT Journal of Computer Assisted Tomography, December 11, 2013    

17- Place of ultrasonography in predicting vesicoureteral reflux in patients with mild renal scarring Urology, December 11, 2013    

18-Pre-emptive penile ring block with sucrose analgesia reduces pain response to neonatal circumcision Urology, December 11, 2013    

News  10 Dec.2013 

New technique for prostate volume assessment
World Journal of Urology, 12/09/2013  

Habes M, et al. – The prostate–specific antigen density (PSAD) helps distinguish between benign prostatic hyperplasia (BPH) and prostate cancer. Accurate prostate volume (PV) assessment is necessary for PSAD calculation and both BPH diagnosis and treatment response monitoring; therefore, accurate PV measurement is increasingly becoming an essential step in the urology. The prostate volumes obtained by the technique agreed excellently with the planimetry (reference) method. This new technique would be clinically useful for urologists in prostate volumetric analysis.

Methods -Magnetic resonance imaging was used for PV estimation.A new technique based on single-class support-vector machines (S SVM) for accurate PV estimation was realized.Three estimation methods were compared; method 1: planimetry (reference), method 2: S SVM based, and method 3: prolate ellipsoid. 

Results -Method 1 and method 2 depict a strong correlation (Spearman’s rank correlation coefficient ρ = 0.965, p > 0.001).

The interrater reliability for method 1 and method 2 readings as expressed by the intraclass correlation coefficient (ICC) was 0.975 (p > 0.001). Comparison between method 3 and the two other methods shows ρ = 0.873 (p > 0.001), and ρ = 0.795 (p > 0.001), respectively. ICC was 0.54 and 0.505, respectively. The mean difference between method 1 and method 2 was -0.05 ml. The limits of agreement with the 95 % confidence interval were -3.8 to 3.7 ml. Comparing method 3 and the two other methods shows a worse agreement with mean difference of 8.6 ml (95 % confidence interval of 1.0-16.2 ml) and 8.6 ml (95 % confidence interval of -0.7 to 18.0 ml), respectively.

Evaluation and prognostic significance of ACAT1 as a marker of prostate cancer progression
The Prostate, 12/09/2013  

Saraon P, et al. – Prostate cancer is the second leading cause of cancer–related death among men in North America. While a majority of prostate cancer cases remain indolent, subsets of patients develop aggressive cancers, which may lead to death. The current methods of detection include digital rectal examination and the serum PSA test. Taken together, the findings indicate that ACAT1 expression could serve as a potential prognostic marker in prostate cancer, specifically in differentiating indolent and aggressive forms of cancer.

Methods -In the current study, the authors assessed the diagnostic and prognostic potential of ACAT1 by analyzing its expression using immunohistochemistry on a tissue microarray consisting of 251 clinically localized prostate cancer patients who have undergone radical prostatectomy.

Results -Using quantitative digital imaging software, the authors found that ACAT1 expression was significantly greater in cancerous cores compared to adjacent benign cores (P < 0.0001), in Gleason score (GS) ≥8 cancers versus GS ≤6 cancers (P < 0.0001), GS≥8 cancers versus GS7 cancers (P = 0.001), as well as pT3/pT4 versus pT2 cancers (P = 0.001).

In addition, ACAT1 predicted biochemical recurrence in univariate (HR, 1.81, CI = 1.13–2.9, P = 0.0128), and multivariate models (HR, 1.69, CI = 1.01–2.81, P = 0.0431) including pre–operative PSA level, Gleason score and pathological stage.

In univariate time–to–recurrence analysis, ACAT1 expression predicted recurrence in ERG negative cases (P = 0.0025), whereas ERG positive cases did not display any differences.

The prostate cancer genome: Perspectives and potential
Urologic Oncology: Seminars and Original Investigations, 12/09/2013  

Barbieri CE, et al. – In this review, the authors discuss the genomic alterations underlying prostate cancer, and potential to utilize this knowledge for diagnostic and prognostic benefit. These findings raise the possibility that prostate cancer could transition from a poorly understood, heterogeneous disease with a variable clinical course to a collection of homogenous subtypes, identifiable by molecular criteria, associated with distinct risk profiles, and perhaps amenable to specific management strategies or targeted therapies.

Methods -The authors reviewed the relevant literature, with a focus on recent studies on somatic alterations in prostate cancer.

Results -Pathways known to affect tumorigenesis across a wide spectrum of tissues are dysregulated, such as the PI3K pathway, cell cycle control, and chromatin regulation.Lesions more specific to prostate cancer include alterations in androgen signaling, gene fusions of ETS transcription factors, and mutations in SPOP.Accumulating data suggests that prostate cancer can be subdivided based on a molecular profile of these genetic alterations.

News 08 Dec.2013

GODWIN O. IFERE, ¹ RENEE DESMOND, ² WENDY DEMARK-WAHNEFRIED, ¹ and TIM R. NAGY ¹

¹ Department of Nutrition Sciences, University of Alabama at Birmingham; ² Division of Preventive Medicine, UAB, Birmingham, AL 35294, USA

Dr Godwin O. Ifere, Webb Nutrition Sciences Building Room 417, Department of Nutrition Sciences, 1675 University Boulevard, University of Alabama at Birmingham, Birmingham, AL 35294, USA, E-mail: gifere/at/uab.edu ' + reverseAndReplaceString(' ude.bau/ta/erefig ', '/at/','@') + '')}catch(e){} //-->

High circulating cholesterol and its deregulated homeostasis may facilitate prostate cancer progression. Genetic polymorphism in Apolipoprotein (Apo) E, a key cholesterol regulatory protein may effect changes in systemic cholesterol levels.

In this investigation, we determined whether variants of the Apo E gene can trigger defective intracellular cholesterol efflux, which could promote aggressive prostate cancer. ApoE genotypes of weakly (non-aggressive), moderate and highly tumorigenic (aggressive) prostate cancer cell lines were characterized, and we explored whether the ApoE variants were associated with tumor aggressiveness generated by intra cellular cholesterol imbalance, using the expression of caveolin-1 (cav-1), a pro-malignancy surrogate of cholesterol overload. Restriction isotyping of ApoE isoforms revealed that the non-aggressive cell lines carried ApoE ε3/ε3 or ε3/ε4 alleles, while the aggressive cell lines carried the Apoε2/ε4 alleles. Our data suggest a contrast between the non-aggressive and the aggressive prostate cancer cell lines in the pattern of cholesterol efflux and cav-1 expression.

Our exploratory results suggest a relationship between prostate aggressiveness, ApoE isoforms and cholesterol imbalance. Further investigation of this relationship may elucidate the molecular basis for considering cholesterol as a risk factor of aggressive prostate tumors, and underscore the potential of the dysfunctional ApoE2/E4 isoform as a biomarker of aggressive disease.

Int J Oncol. 2013 October; 43(4): 1002 – 1010 .

Published online 2013 August 7. doi:  10.3892/ijo.2013.2057

News  08 Dec.2013

David P. Turner, Victoria J. Findlay, Lourdes M. Nogueira, Sadia Robinson, Emily Kistner-Griffin, Laura Spruill, Ryan Y. Turner, Mahtabuddin Ahmed, Judith D. Salley, Marvella E. Ford.

African American cancer patients are more likely to die of their disease than their European counterparts. Our research has identified a potential mechanistic link between carbohydrate derived metabolites and cancer associated pathways which may provide a biological consequence of the socioeconomic and environmental factors that are known to drive cancer health disparity.

Glycation is the non-enzymatic glycosylation of sugar moieties to biological macromolecules such as protein and DNA which produces reactive metabolites known as advanced glycation end products (AGE's). AGE's accumulate in our tissues as we grow older and drive many of the complications associated with diseases displaying health disparity including diabetes, metabolic syndrome, Alzheimer's and heart disease.

Low income, obesity and an inactive/sedentary lifestyle are established factors driving cancer health disparity. Apart from their production during normal metabolism, AGE's are also formed through the ingestion of food and by external environmental factors such as lack of exercise. AGE content in the Western Diet has consistently increased over the last 50 years due to increased consumption of sugar laden and cheap processed/manufactured foods which are high in reactive AGE metabolites and can promote obesity.

We therefore examined circulating and intra-tumoral AGE metabolite levels in clinical specimens and identified a race specific, tumor dependent pattern of accumulation in prostate cancer serum and tumor. In mouse xenograft models, AGE accumulation was highest in the more aggressive tumors. One way AGE's mediate their deleterious effects is by functioning as ligand for the trans-membrane receptor for AGE (RAGE).

 In diabetes and other diseases, the AGE-RAGE signaling axis is a pro-inflammatory pathway leading to the upregulation of pro-inflammtory cytokines through increased NFkB activation. Higher AGE levels in prostate tumors corresponded with higher RAGE expression and increased NFkB transcriptional activity. In immortalized prostate cancer cell lines AGE treatment increased cancer associated processes and RAGE expression levels. Loss of function studies show that AGE mediated increases in cancer associated processes was dependent upon RAGE expression.

These data implicate the AGE-RAGE signaling axis as a potential biological mechanism promoting prostate cancer and indicate that increased AGE accumulation may represent a biological mechanism promoting prostate cancer disparity.

American Association for Cancer Research

News  08 Dec.2013

In recent years, research has suggested that carbon monoxide, the highly toxic gas emitted from auto exhausts and faulty heating systems, can be used to treat certain inflammatory medical conditions. Now a study led by a research team at Beth Israel Deaconess Medical Center (BIDMC) shows for the first time that carbon monoxide may also have a role to play in treating cancer.

The surprising new findings, described in the December issue of the journal Cancer Research, show that in cell culture and animal models carbon monoxide (CO) can both prevent tumor growth in prostate and lung cancers and can amplify the effectiveness of chemotherapy 1,000-fold - while sparing noncancerous tissue from chemo's sometimes debilitating side effects.

"We found that in small, carefully controlled doses, CO not only mimicked the effects of chemotherapy agents by blocking proliferation of cancer cells, but also amplified the toxic effects of the chemotherapy drugs doxorubicin and camptothecin to accelerate cancer cell death," says senior author Leo Otterbein, PhD, an investigator in the Transplant Institute in BIDMC's Department of Surgery and Associate Professor of Surgery at Harvard Medical School. "Importantly and rather unique is that CO also helped to protect normal tissue from chemotherapy, which is an unfortunate side effect of the treatments."

The new discovery appears to hinge on CO's ability to switch the metabolic state of cancer cells so that tumors essentially work themselves to death. "There are fundamental differences in the metabolism of normal cells and cancer cells," explains Otterbein. "Cancer cells are able to alter their metabolism in processing sugars and other energy sources, which enable them to rapidly proliferate and spread. This shift in metabolism is known as the Warburg Effect. Our findings indicate that CO essentially induces an 'anti-Warburg' effect, rapidly fueling cancer cell bioenergetics by compelling the cancer cell to increase respiration, which ultimately results in metabolic exhaustion."

The body naturally generates CO under stress through the increased expression of the gene heme oxygenase-1 (HO-1 Hmox1), a cytoprotective stress response gene that generates CO as it catabolizes heme, an essential component of many proteins such as hemoglobin. The increase in HO-1 has been shown to occur under numerous and diverse stressors, such as inflammation, trauma and even tissue repair. Tumors, however, are often absent this capability because HO has become inactive and unable to generate sufficient levels of CO. In this new paper, Otterbein and first author Barbara Wegiel, PhD, also an investigator in BIDMC's Transplant Institute, wanted to find out if a tumor's inability to produce CO naturally was what was fueling cancer growth.

"If A plus B equals C, then, we reasoned, if you administered carbon monoxide to tumors, you would reestablish a tumor cell's ability to regulate its cell growth, and so, too, slow that growth," says Otterbein.

The authors first conducted a detailed analysis of more than 500 tumor samples from prostate cancer patients. "Through these biopsies, we confirmed expression of HO-1," explains Wegiel, who is also an Assistant Professor of Surgery at HMS. "But we found that HO-1 in the tumor was simply not active. It was not producing sufficient amounts of CO, and we thought this was contributing to altered cell growth and malignancy."

This finding led to their hypothesis that HO-1, through its ability to generate CO, was regulating the growth of cancer cells, a discovery that had been observed and well described in other cell types. To test this hypothesis, mice with established tumors were started on a regimen of inhaled CO of one hour per day at a safe, low concentration, equal to that approved for use in humans in ongoing clinical trials. Tumor size was measured daily over four to six weeks. In the cancer cell CULTURES, metabolic activity in the mitochondria - the cells' energy-generating organelle - were measured using biochemical markers as well as imaging techniques.

"We found that exposure to CO sensitized the prostate cancer cells - but not the normal cells - to chemotherapy," explains Otterbein. "CO targeted mitochondria activity in cancer cells as evidenced by higher oxygen consumption, free radical generation and, ultimately, mitochondrial collapse.

"Collectively, our findings indicated that CO induces an anti-Warburg effect by rapidly fueling cancer cell bioenergetics, ultimately resulting in metabolic exhaustion," he adds. Importantly, CO protected normal cells from DNA damage generated by cytotoxic agents, in part by reducing oxygen consumption and eliciting a hibernation-like state in these cells. "Essentially, these normal cells entered growth arrest and slowed their metabolic rate, in marked contrast to the cancer cells, which continued to consume oxygen at a rate that ultimately led to their demise." While the authors note that more research will be needed to confirm these findings, they provide a promising new direction for cancer treatment.

"Chemotherapy remains the first-line therapy for many types of cancer, including breast and lung cancers," notes study coauthor and BIDMC Chief Academic Officer Vikas Sukhatme, MD, PhD. "But chemotherapy's debilitating side effects and limited effectiveness are well known. This new finding opens up the possibility of new therapeutic interventions that take advantage of powerful chemotherapy drugs, perhaps making them even more potent while simultaneously limiting their terrible side effects and damage to normal cells and tissues. There are ongoing innovative methodologies being designed and tested to deliver CO directly to the tumor site, which might obviate the need for additional drugs. Indeed, small molecules are being designed that can carry CO as a cargo and deliver it in a tissue-specific manner."

This work was supported by grants from the National Institutes of Health (HL-071797; HL-076167, as well as support from AHA, the Julie Henry Fund, the British Heart Foundation and Medical Research Council.

In addition to Otterbein, Wegiel and Sukhatme, study coauthors include BIDMC investigators David Gallo, Eva Csizmadia, Clair Harris, Pankaj Seth and Pier Paolo Pandolfi and investigators John Belcher, Gregory Vercellotti, Leszek Helczynski, Anders Bjartell, Jenny Liao Persson, Nuno Penacho and Asif Ahmed.

Beth Israel Deaconess Medical Center

News  08 Dec.2013

Doherty D, et al

A contributing factor to the emergence of castrate resistant prostate cancer (CRPC) is the ability of the tumor to circumvent low circulating levels of testosterone during androgen deprivation therapy (ADT), through the production of “intracrine” tumoral androgens from precursors including cholesterol and dehydroepiandrosterone (DHEA). As these processes promote AR signaling and prostate cancer progression their modulation is required for disease prevention and treatment. These data highlight a potential application of VDR–based therapies for the reduction of growth–promoting androgens within the tumor micro–environment.  

Methods -Authors evaluated the involvement of the vitamin D receptor ligand EB1089 in the regulation of genes with a role in androgen metabolism using the androgen dependent cell lines LNCaP and LAPC–4. EB1089 regulation of androgen metabolism was assessed using QRT–PCR, luciferase promoter assays, western blotting, enzyme activity assays, and LC–MS analyses.

Results -EB1089 induced significant expression of genes involved in androgen metabolism in prostate cancer cells. Real–Time PCR analysis revealed that VDR mediated significant regulation of CYP3A4, CYP3A5, CYP3A43, AKR1C1–3, UGT2B15/17, and HSD17B2. Data revealed potent regulation of CYP3A4 at the level of mRNA, protein expression and enzymatic activity, with VDR identified as the predominant regulator. Inhibition of CYP3A activity using the specific inhibitor ritonavir resulted in alleviation of the anti–proliferative response of VDR ligands in prostate cancer cells. Mass spectrometry revealed that overexpression of CYP3A protein in prostate cancer cells resulted in a significant increase in the oxidative inactivation of testosterone and DHEA to their 6– β–hydroxy–testosterone and 16– α–hydroxy–DHEA metabolites, respectively.

News  07 Dec.2013

PRH/HHex inhibits the migration of breast and prostate epithelial cells through direct transcriptional regulation of Endoglin

R M Kershaw, Y H Siddiqui, D Roberts, P-S Jayaraman and K Gaston

Oncogene , (18 November 2013) | doi:10.1038/onc.2013.496

PRH/HHex (proline-rich homeodomain protein) is a transcription factor that controls cell proliferation and cell differentiation in a variety of tissues. Aberrant subcellular localisation of PRH is associated with breast cancer and thyroid cancer. Further, in blast crisis chronic myeloid leukaemia, and a subset of acute myeloid leukaemias, PRH is aberrantly localised and its activity is downregulated.

Here we show that PRH is involved in the regulation of cell migration and cancer cell invasion. We show for the first time that PRH is expressed in prostate cells and that a decrease in PRH protein levels increases the migration of normal prostate epithelial cells.

We show that a decrease in PRH protein levels also increases the migration of normal breast epithelial cells. Conversely, PRH overexpression inhibits cell migration and cell invasion by PC3 and DU145 prostate cancer cells and MDA-MB-231 breast cancer cells. Previous work has shown that the transforming growth factor-β co-receptor Endoglin inhibits the migration of prostate and breast cancer cells.

 Here we show that PRH can bind to the Endoglin promoter in immortalised prostate and breast cells. PRH overexpression in these cells results in increased Endoglin protein expression, whereas PRH knockdown results in decreased Endoglin protein expression. Moreover, we demonstrate that Endoglin overexpression abrogates the increased migration shown by PRH knockdown cells.

Our data suggest that PRH controls the migration of multiple epithelial cell lineages in part at least through the direct transcriptional regulation of Endoglin. We discuss these results in terms of the functions of PRH in normal cells and the mislocalisation of PRH seen in multiple cancer cell types.

News  07 Dec.2013

Katri A. Leinonen1,3,4, Outi R. Saramäki1,3,4, Bungo Furusato6, Takahiro Kimura7, Hiroyuki Takahashi6, Shin Egawa7, Hiroyoshi Suzuki8, Kerri Keiger9, Sung Ho Hahm9, and Tapio Visakorpi1,3,4

¹Institute of Biomedical Technology and ²Institute of Signal Processing, ³Prostate Cancer Research Center, ⁴BioMediTech, ⁵Department of Urology, School of Medicine, University of Tampere and Tampere University Hospital, Tampere, Finland; Departments of ⁶Pathology and ⁷Urology, Jikei University School of Medicine, Minato-ku, Tokyo; ⁸Department of Urology, Toho University Sakura Medical Center, Sakura, Chiba, Japan; Departments of ⁹Pathology and ¹⁰Urology, Johns Hopkins University, Baltimore, Maryland; and ¹¹Department of Clinical Chemistry, Helsinki University Central Hospital, Helsinki, Finland 

Background: The associations of ERG overexpression with clinical behavior and molecular pathways of prostate cancer are incompletely known. We assessed the association of ERG expression with AR, PTEN, SPINK1, Ki-67, and EZH2 expression levels, deletion, and mutations of chromosomal region 3p14 and TP53, and clinicopathologic variables.

Methods: The material consisted of 326 prostatectomies, 166 needle biopsies from men treated primarily with endocrine therapy, 177 transurethral resections of castration-resistant prostate cancers (CRPC), and 114 CRPC metastases obtained from 32 men. Immunohistochemistry, FISH, and sequencing was used for the measurements.

Results: ERG expression was found in about 45% of all patient cohorts. In a multivariate analysis, ERG expression showed independent value of favorable prognosis (P = 0.019). ERG positivity was significantly associated with loss of PTEN expression in prostatectomy (P = 0.0348), and locally recurrent CRPCs (P = 0.0042). Loss of PTEN expression was associated (P = 0.0085) with shorter progression-free survival in ERG-positive, but not in negative cases. When metastases in each subject were compared, consistent ERG, PTEN, and AR expression as well as TP53 mutations were found in a majority of subjects.

Conclusions: A similar frequency of ERG positivity from early to late stage of the disease suggests lack of selection of ERG expression during disease progression. The prognostic significance of PTEN loss solely in ERG-positive cases indicates interaction of these pathways. The finding of consistent genetic alterations in different metastases suggests that the major genetic alterations take place in the primary tumor.

Cancer Epidemiol Biomarkers Prev December 2013 22; 2333/ ©2013 American Association for Cancer Research.

News  07 Dec.2013 

Julie L. Kasperzyk1,3, Stephen P. Finn6,7, Richard Flavin6,7, Michelangelo Fiorentino1,6,8, Rosina Lis6, Whitney K. Hendrickson1,3, Steven K. Clinton9, Howard D. Sesso4, Edward L. Giovannucci1,2,3, Meir J. Stampfer1,2,3, Massimo Loda5,6, and Lorelei A. Mucci1,3

 Departments of ¹Epidemiology and ²Nutrition, Harvard School of Public Health; ³Channing Division of Network Medicine and ⁴Division of Preventive Medicine, Department of Medicine, ⁵Department of Pathology, Brigham and Women's Hospital, Harvard Medical School; ⁶Center for Molecular Oncologic Pathology, Department of Medical Oncology, Dana-Farber Cancer Institute, Boston, Massachusetts; ⁷Department of Histopathology, St. James's Hospital, Dublin, Ireland; ⁸Pathology Unit, Addarii Institute of Oncology, Sant' Orsola-Malpighi Hospital, Bologna, Italy; and ⁹Division of Medical Oncology, Department of Internal Medicine, Comprehensive Cancer Center, The Ohio State University, Columbus, Ohio

Background: Overexpression of prostate-specific membrane antigen (PSMA) in tumor tissue and serum has been linked to increased risk of biochemical recurrence in surgically treated prostate cancer patients, but none of the studies have assessed its association with disease-specific mortality.

Methods: We examined whether high PSMA protein expression in prostate tumor tissue was associated with lethal disease, and with tumor biomarkers of progression, among participants of two U.S.-based cohorts (n = 902, diagnosed 1983–2004). We used Cox proportional hazards regression to calculate multivariable HRs and 95% confidence intervals (CI) of lethal prostate cancer, defined as disease-specific death or development of distant metastases (n = 95). Partial Spearman rank correlation coefficients were used to correlate PSMA with tumor biomarkers.

Results: During an average 13 years of follow-up, higher PSMA expression at prostatectomy was significantly associated with lethal prostate cancer (age-adjusted HR_{Quartile(Q)4vs.Q1} = 2.42; P_trend < 0.01). This association was attenuated and nonsignificant (multivariable-adjusted HR_Q4vs.Q1 = 1.01; P_trend = 0.52) after further adjusting for Gleason score and prostate-specific antigen (PSA) at diagnosis. High PSMA expression was significantly (P < 0.05) correlated with higher Gleason score and PSA at diagnosis, increased tumor angiogenesis, lower vitamin D receptor and androgen receptor expression, and absence of ets-related gene (ERG) expression.

Conclusions: High tumor PSMA expression was not an independent predictor of lethal prostate cancer in the current study. PSMA expression likely captures, in part, malignant features of Gleason grade and tumor angiogenesis.

Cancer Epidemiol Biomarkers Prev; 22(12); 2354–63. ©2013 AACR. ©2013 American Association for Cancer Research.

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