Barur Rajeshkumar

Androgen Receptor Mutations in Androgen-Independent Prostate Cancer: Cancer and Leukemia Group B Study 9663

PURPOSE The mechanisms responsible for prostate cancer androgen independence are diverse. Mutations of the androgen receptor (AR) gene that broaden ligand specificity have been implicated. Bone marrow specimens containing prostate tumor were obtained from men undergoing antiandrogen withdrawal for AR sequence analysis and clinical correlation. MATERIALS AND METHODS Eligible men enrolled on a trial of antiandrogen withdrawal had a minimum prostate-specific antigen (PSA) level of 5 ng/dL that was increasing on castration therapy including an antiandrogen. With informed consent, marrow biopsies were obtained to collect prostate tumor. Additional samples were obtained from men enrolled on chemotherapy trials. AR cDNA or DNA was polymerase chain reaction-amplified, cloned, and sequenced. The AR CAG repeat length was recorded. RESULTS One hundred eighty-four bone marrow biopsies were obtained, and 48 had prostate tumor detected by light microscopy. The ARs from these 48 samples were sequenced. Overall, five (10%) of 48 tumors had mutated ARs. AR point mutations were detected in the hormone-binding domain involved in transcription factor binding. Three mutations were novel in prostate cancer. One tumor sample had a CAG repeat length of 21, compared with germline length of 22 repeats. There was no association between detectability of AR mutations and antiandrogen withdrawal response or survival. CONCLUSION These data suggest that AR mutations are present in approximately 10% of patients with prostate cancer who experience treatment failure with hormone therapy that included an antiandrogen. Mutations in the AR likely confer a growth advantage for a subset of progressive prostate cancers. Correlation of AR mutation with antiandrogen withdrawal response or survival could not be made.

Therapeutic targeting of C-terminal binding protein in human cancer

The CtBP transcriptional corepressors promote cancer cell survival and migration/invasion. CtBP senses cellular metabolism via a regulatory dehydrogenase domain, and is antagonized by p14/p19ARF tumor suppressors. The CtBP dehydrogenase substrate 4-methylthio-2-oxobutyric acid (MTOB) can act as a CtBP inhibitor at high concentrations, and is cytotoxic to cancer cells. MTOB induced apoptosis was p53-independent, correlated with the derepression of the pro-apoptotic CtBP repression target Bik, and was rescued by CtBP over-expression or Bik silencing. MTOB did not induce apoptosis in mouse embryonic fibroblasts (MEFs), but was increasingly cytotoxic to immortalized and transformed MEFs, suggesting that CtBP inhibition may provide a suitable therapeutic index for cancer therapy. In human colon cancer cell peritoneal xenografts, MTOB treatment decreased tumor burden and induced tumor cell apoptosis. To verify the potential utility of CtBP as a therapeutic target in human cancer, the expression of CtBP and its negative regulator ARF was studied in a series of resected human colon adenocarcinomas. CtBP and ARF levels were inversely-correlated, with elevated CtBP levels (compared with adjacent normal tissue) observed in greater than 60% of specimens, with ARF absent in nearly all specimens exhibiting elevated CtBP levels. Targeting CtBP may represent a useful therapeutic strategy in human malignancies.

Human Adipose Derived Mesenchymal Stem Cells Attenuate Liver Ischemia-Reperfusion Injury and Promote Liver Regeneration

BACKGROUND Ischemia-reperfusion injury (IRI) of the liver is a well-known cause of morbidity and mortality after liver transplantation. Effective treatment strategies aimed at decreasing hepatic IRI injury and accelerating liver regeneration could offer major benefits in liver transplantation, especially in the case of partial allografts. Human adipose-derived mesenchymal stem cells (HADMSCs) are an attractive source for regenerative medicine because of their anti-inflammatory and regenerative properties. We hypothesized that HADMSCs attenuate IRI and promote liver regeneration. METHODS Mice were subjected to 60 minutes of partial IRI with or without 70% partial hepatectomy. Animals were treated with HADMSCs. Liver IRI was evaluated with serum levels of alanine aminotransferase, serum interleukin-6, and histopathology. Liver samples were stained for specific markers of liver regeneration. RESULTS Histology, serum interleukin-6, and alanine aminotransferase release revealed that treatment with HADMSCs attenuated liver injury compared with control patients. Improved animal survival and increased number of regenerating cells were observed in HADMSC-treated animals who underwent IRI and partial hepatectomy compared with the control group. CONCLUSION HADMSC represents a potential therapeutic strategy to decrease IRI and promote regeneration in liver transplantation.

Predictors of Prostate Cancer Tissue Acquisition by an Undirected Core Bone Marrow Biopsy in Metastatic Castration-Resistant Prostate Cancer—A Cancer and Leukemia Group B Study

Purpose: Analyzing metastatic prostate cancer tissue is of considerable importance in evaluating new targeted agents, yet acquiring such tissue presents a challenge due to the predominance of bone metastases. We assessed factors predicting a successful tumor harvest from bone marrow biopsies (BMBx) in castration-resistant metastatic prostate cancer patients. Material and Methods: Data from Cancer and Leukemia Group B study 9663 were reviewed. Bone marrow biopsies were obtained from 184 patients who underwent an office-based, unguided bone marrow biopsy of the posterior iliac crest. Results: Forty-seven of the 184 patients (25.5%) had a positive bone marrow biopsy. When considered in a multivariate logistic regression analysis, lower hemoglobin levels, higher alkaline phosphatase, and higher lactate dehydrogenase levels were associated with a higher likelihood of a positive BMBx. The median survival time was 11 months (95% confidence interval, 8.0-14) among patients with a positive BMBx compared with 23 months (95% confidence interval, 19-27) with a negative BMBx. The median time to progression and time to prostate-specific antigen progression-free survival were also significantly decreased among positive BMBx patients. No patients with a positive BMBx survived beyond 3 years, whereas 11 of the 137 patients with a negative BMBx survived beyond 5 years. Discussion: Using common laboratory values, a specific patient cohort can be defined from whom the yield of a nonguided BMBx would be high enough to justify this approach. For studies that require broader entry criteria, a more directed approach with image guidance is recommended.

Docetaxel, Estramustine, and Short-Term Androgen Withdrawal for Patients With Biochemical Failure After Definitive Local Therapy for Prostate Cancer

Over the past 10 years, men with prostate cancer have received earlier diagnoses and are undergoing prostatectomy and/or radiation therapy with curative intent; however, many men have increasing prostate-specific antigen (PSA) levels without evidence of local progression or metastatic disease during the first 2 years after definitive local therapy. Optimal treatment of men with PSA-only recurrent prostate cancer has not been established. This ongoing phase II trial is evaluating docetaxel (70 mg/m(2) administered intravenously over 1 hour on day 2 every 21 days for four cycles) and estramustine (10 mg/kg/d orally on days 1 to 5 every 21 days for four cycles) followed by bicalutamide and goserelin acetate in men with increasing PSA levels after prostatectomy and/or radiation therapy. Patients received pretreatment with dexamethasone, and after the third patient enrolled, patients received warfarin for prophylaxis against thrombosis. Colony-stimulating factor support was allowed. In preliminary results, 11 of 15 patients completed protocol chemotherapy; 12 of 15 patients achieved complete response (ie, normalization of PSA) after four cycles of chemotherapy. In addition, testosterone levels were reduced to the castrate range in all patients after chemotherapy. The regimen was generally well tolerated, and toxicities were mostly hematologic, with grade (3/4) neutropenia reported in approximately half of patients. Preliminary results of this phase II trial are encouraging, and enrollment is ongoing.

Preclinical efficacy and safety of KCNH2-G628S gene therapy for postoperative atrial fibrillation

Background: Postoperative atrial fibrillation (POAF) is the most common complication occurring after cardiac surgery. Multiple studies have shown significantly increased risks of stroke, myocardial infarction, and death associated with POAF. Current prophylaxis strategies are inadequate to eliminate this problem. We examined the preclinical efficacy and safety of KCNH2‐G628S gene transfer to prevent POAF. Methods: Domestic pigs received AdKCNH2‐G628S by epicardial atrial gene painting and atrial pacemaker implantation for continuous‐burst pacing to induce atrial fibrillation. In an initial dose‐ranging evaluation, 3 pigs received 5 × 1010 to 5 × 1011 virus particles. In the formal study, 16 pigs were randomized to 3 groups: 5 × 1011 virus particles of AdKCNH2‐G628S with 20% Pluronic P407 in saline, 20% Pluronic P407 in saline with no virus, and saline alone. Animals were followed with daily efficacy and safety evaluations through the period of peak adenovirus‐mediated transgene expression. After 14 days, pacing was discontinued, and the animals were followed in sinus rhythm for an additional 14 days to assess any longer‐term toxicity. Results: In the primary efficacy analysis, the G628S animals exhibited a significant increase in the average time in sinus rhythm compared with the Pluronic control group (59 ± 7% vs 14 ± 6%; P = .009). There was no significant difference between the Pluronic and saline controls (14 ± 6% vs 32 ± 12%; P = .16). Safety assessment showed improved left ventricular function in the G628S animals; otherwise there were no significant differences among the groups in any safety measure. Conclusions: These data indicate that KCNH2‐G628S gene therapy can successfully and safely reduce the risk of AF.

Higher flow rates improve heating during hyperthermic intraperitoneal chemoperfusion

Heated intraperitoneal chemotherapy (HIPEC) kills cancer cells via thermal injury and improved chemotherapeutic cytotoxicity. We hypothesize that higher HIPEC flow rates improve peritoneal heating and HIPEC efficacy.

Treatment of peritoneal carcinomatosis with intraperitoneal administration of Ad-hARF

BACKGROUND Peritoneal dissemination of cancer is a terminal condition with limited therapeutic options. Because the peritoneal cavity is a single enclosed space, regional treatment approaches for isolated peritoneal cancrinomatosis are appealing. There is a potential role for gene therapy in the management of peritoneal cancrinomatosis. MATERIALS AND METHODS An adenoviral construct of the human p14ARF gene (a tumor suppressor) and a 22 amino acid sequence of the ARF gene product, which has cell membrane penetrating properties, were assayed for proapoptotic properties in a human colorectal cancer cell line (Clone A) cells in vitro. Peritoneal carcinomatosis derived from Clone A cells was also established in nude mice and then treated with intraperitoneal administration of an adenoviral construct of the human p14ARF gene. RESULTS Treatment of ARF-negative Clone A cells with Ad-hARF in vitro reestablished ARF function. However, the cell penetrating ARF-related peptide did not restore ARF function in Clone A cells. Treatment of Clone A peritoneal xenografts with a single intraperitoneal dose of Ad-hARF (9 × 10(6) viral particles) suppressed the progression of peritoneal disease. Weekly (six times) administration of the Ad-hARF at a lower dose (3 × 10(6) viral particles) also suppressed tumor progression. CONCLUSIONS Treatment of peritoneal carcinomatosis by intraperitoneal administration of adenoviral constructs of inactivated tumor suppressor genes may be a feasible clinical approach, and ARF may represent a suitable molecular target for tumors where the ARF gene is inactivated.

Abstract 1633: C-terminal binding proteins are novel drug targets

Proceedings: AACR 102nd Annual Meeting 2011‐‐ Apr 2‐6, 2011; Orlando, FL The CtBP transcriptional corepressors have been identified as proto-oncogenes. CtBP represses pro-apoptotic genes and promotes cancer cell migration and invasion in a redox sensitive manner through a regulatory dehydrogenase domain. The CtBP dehydrogenase substrate 4-methylthio-2-oxobutyric acid (MTOB) can act as a CtBP inhibitor at high concentrations, and induces apoptosis in the human colorectal cancer cell line HCT116. MTOB induced apoptosis is dependent upon expression of the BH3 only protein BIK, a previously established CtBP target. Treatment of both native and transformed Mouse Embryonic Fibroblasts revealed a wide therapeutic index for CtBP inhibition. In human colon cancer cell peritoneal xenografts, MTOB treatment reduced tumor growth and induced apoptosis in vivo without notable toxicity. To verify the potential utility of CtBP as a therapeutic target in human cancer, the expression of CtBP and its negative regulator ARF was studied in a series of resected human colon adenocarcinomas. CtBP and ARF levels were inversely-correlated, with elevated CtBP levels (compared with adjacent normal tissue) observed in greater than 60% of specimens, with ARF absent in nearly all specimens exhibiting elevated CtBP levels. Thus, CtBP is a viable therapeutic target in human cancer. In order to identify novel CtBP inhibitors, a simple dehydrogenase assay was developed that utilizes the spectrophotometric measurement of enzymatic conversion of NADH to NAD+ by the CtBP dehydrogenase activity. This assay successfully detects MTOB substrate and inhibitor activity, as well as inhibition of CtBP activity by the related compound 4-methylthio-2-hydroxybutyric acid (MTHB). This assay will be adapted for high throughput screening of small molecule libraries for novel CtBP inhibitors that can be further characterized in pre-clinical models. Citation Format: {Authors}. {Abstract title} [abstract]. In: Proceedings of the 102nd Annual Meeting of the American Association for Cancer Research; 2011 Apr 2-6; Orlando, FL. Philadelphia (PA): AACR; Cancer Res 2011;71(8 Suppl):Abstract nr 1633. doi:10.1158/1538-7445.AM2011-1633