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Brief Title: Biological, Pathological and Imagery Markers in the First-line Treatment of Metastatic Clear-cell Renal Cell Carcinoma
Official Title: A Study of Biological, Pathological and Imagery Markers in the First-line Treatment of Metastatic Clear-cell Renal Cell Carcinoma With Sunitinib BEFORE and AFTER Nephrectomy
Study ID: NCT00930345
Brief Summary: The aim of this study is to identify and/or validate biomarkers and imaging markers to predict and monitor the activity of a new class of therapeutic agents called antiangiogenics for the treatment of metastatic renal cell carcinoma (mRCC). Suntinib, approved for this indication, will be administred before and after nephrectomy and biomarkers sampling and imaging will be operated to monitor the activity and identify prognostic factors in mRCC.
Detailed Description: BACKGROUND Sunitinib, SUTENT, is a promising multi-target TKI in the treatment of metastatic renal cell carcinoma after cytokine failure. In previous phase II studies, ORR is 40% and TTP = 8,7 months. A phase III randomized trial of Sunitinib versus interferon alpha as first-line therapy for patients with mRCC showed a significantly longer PFS in the Sunitinib group (11 months) than in the interferon group (5 months), hazard ratio of 0.42 (95% CI, 0.32 to 0.54, p \< 0.001). Initial approval in second line treatment of mRCC was extended to first line therapy on 11-01-2007. Mechanisms of action involved in the therapeutic effects of antiangiogenic compounds are not fully elucidated. As of today, there are no validated biomarkers or imaging markers to predict and monitor the activity of this type of compound. Recent findings in the field of cancer biology, tumor angiogenesis, immunology and imaging provide several biomarker candidates that can be assessed in metastatic renal cell carcinoma. BASIC RESEARCH Biomarkers It seems interesting to measure the different biological markers that could be modulated by this antiangiogenic therapeutic. Some of them are known as prognostic factors in the metastatic renal carcinoma, others are directly linked to the mechanism of action of Sunitinib. Due to the biopsy prior to treatment initiation and nephrectomy after treatment initiation, it will be possible to evaluate biomarkers modification and to assess the potential link with the tumour response. VHL gene alterations (mutations, deletions, and hypermethylations) are observed at high frequencies of up to 80% in cases of clear-cell renal cell carcinoma. The molecular mechanisms involved in angiogenesis in the presence of such genetic alterations are not yet well known. The functions of the pVHL/aHIF/VEGF/angiogenesis pathway will be investigated in all the renal cell carcinoma obtained from the biopsy and nephrectomy. Molecular markers defined by VHL status, expression and proteomic profiling may be helpful in predicting the responders. Sunitinib is a potent inhibitor of the tyrosine kinase activity of several receptors: VEGFR-2, the main receptor responsible for mediating the proangiogenic effects of vascular endothelial growth factor (VEGF), expressed by vascular endothelial cells; PDGFR, the receptor for the platelet-derived growth factor (PDGF), expressed in pericytes which serve as structural supporting cells for endothelial cells. Consistent with its biochemical activity, Sunitinib inhibits the in vitro mitogenic response of human umbilical vein endothelial cells (HUVECs) stimulated by VEGF or bFGF (basic fibrosblast growth factor), another proangiogenic factor. VEGF gene polymorphisms In physiologic and pathologic conditions, important variations in VEGF blood levels have been reported to correlate with constitutional VEGF-A gene polymorphisms located in intronic regions. Moreover, VEGF-A polymorphisms have been described as predisposition and prognostic factors in several human malignancies such as bladder, breast, melanoma, prostate and head and neck carcinomas. Hence, it is interesting to see whether these polymorphisms could affect tumor and clinical presentation and correlate with VEGF-levels and response to antiangiogenic treatment with sunitinib. Immunology Tumor angiogenesis can impact immune response in renal cell carcinoma patients. A naturally occurring CD4+ T cell subset, regulatory CD4+CD25+ T cells, has emerged as the dominant T cell population governing peripheral self- tolerance by inhibiting effector T cell. The ability of anti-angiogenic therapy to block VEGF may allow better maturation of dendritic cells and a reduction of the number of regulatory CD4+CD25+T cells. The aim of this project will be to test whether the administration of Sunitinib modulates the concentrations of regulatory CD4+CD25+T cells, and if a correlation between the immunology parameters and the response can be observed. Imaging Radiological evaluation of tumor response is also challenging with anti-angiogenic drugs. Criteria based solely on size may be inadequate for evaluation of anti-angiogenic therapy efficacy. The unbridled expansion of tumor vessels leads to development of abnormal vessels, with distinct microvascular characteristics: high perfusion (blood flow), and porous walls leaking molecules into the interstitium (permeability). New imaging techniques as dynamic contrast-enhanced CT are being developed to quantify and characterize these unique properties, and may be used as markers of response to angiogenesis inhibitors. Imaging assays of angiogenic status therefore offer the potential to clinically measure anti angiogenic effects of drugs on the tumor vessels themselves, effects that may not be reflected in changing tumor dimensions. These effects may be detectable hours or days from time of treatment initiation, rather than in weeks or months needed typically to detect a change in tumor size. Exploration of local tumor vascular architecture can help to understand mechanism of action of Sunitinib. This vasculature seems to be of poor functionality and tumor vascularization cannot be adequately assessed only by global index such as global tumor blood flow. In addition, exploration of renal tumor vascularization with contrast-enhanced US will be performed to compare blood flow determined by CT and US.
Minimum Age: 18 Years
Eligible Ages: ADULT, OLDER_ADULT
Sex: ALL
Healthy Volunteers: No
HEGP, Paris, , France
Name: Stephane OUDARD, MD
Affiliation: Assistance Publique - Hôpitaux de Paris
Role: PRINCIPAL_INVESTIGATOR