Prostate cancer is the most frequent malignant tumor among men over 50 years old. Its incidence varies according to countries and ethnic group. Known risk factors are race and positive family history of the disease. Familial aggregation (at least 2 cases in the family) is observed in about 20% of cases and an hereditary form of prostate cancer in 5%. This proportion increases with younger age at diagnosis. Six putative loci are already identified but undoubtedly, others will be found in forthcoming studies. The genetic heterogeneity observed in hereditary prostate cancer reflects variety of origins of the studied families. In some families, aggregation of prostate cancer and other cancers suggests the involvement of common predisposing genes. In other familial and in sporadic cases, the genetic component should be polygenic: prostate cancer wouldn't result to segregation of a major gene mutations transmitted according to a monogenic inheritance, but rather to sharing of alleles at many loci, each contributing to a small increase in cancer risk. Indeed, several genetic polymorphism were associated with an increased risk of developing prostate cancer and could explain the variations of prostate cancer incidence observed between populations.

Since the last recommendations, up to 2,500 new references had been published on that topic.

Nasopharyngeal carcinomas (NPC) challenge clinicians and biologists in various fields including epidemiology, genetics, virology and immunology. These tumours have a striking geographical distribution. They are constantly associated with the Epstein-Barr virus (EBV) and contain a massive lymphocytic infiltrate. Their study has major implications especially at this moment while a pathological role of EBV is suspected in several other human epithelial malignancies (for example gastric, mammary and thyroid carcinomas). The North-South Workshop on Nasopharyngeal Carcinoma was held at the Institut Gustave-Roussy in early December 2003. Its main goal was to support the exchanges between clinical research on NPC in the South and basic research in the North. With regard to epidemiology and genetics, the main information was the possible existence of several susceptibility genes (including two of them on the 4p and 5p chromosomes). In virology, participants have emphasized the selection of peculiar EBV variants within the malignant cells and the expression of novel oncogenic viral proteins : LMP2 and BARF1. Cellular gene alterations also contribute to NPC development, especially inactivation of tumor suppressor genes located on the 3p chromosome. Therapeutic research was not forgotten. Hope of higher rate of cure relies on improved ballistic processes in radiotherapy (IMRT) and on the development of targeted therapeutics : induction of the lytic/productive viral cycle, gene therapy with conditional replicative adenoviruses, antitumor vaccination directed against the viral protein LMP2.

The HER2 proto-oncogene encodes a transmembrane protein, which is considered to function as a growth factor receptor. Overexpression of this protein found by immunohistochemistry in about 20% of infiltrating breast carcinomas, has a predictive value of response to treatment by trastuzumab, an anti-HER2 humanized monoclonal antibody. Search for HER2 gene amplification is necessary to adapt the immunohistochemical technique quality and also in the cases of delicate analysis or weak overexpression. It is usually carried out by Fluorescence In Situ Hybridization (FISH). A more recent hybridization technique, named CISH because of its chromogenic revelation is an alternative method, which gives highly correlated results with FISH. We present details of this technique, which may be more familiar for the pathologists than FISH, because reading analysis is similar to that of immunohistochemical staining.

Breast papillary lesions are difficult to interpret and include a large variety of benign, atypical and malignant lesions. We report the case of a 41-Year-old woman presenting with an intracystic papillary carcinoma, in order to illustrate our pragmatic diagnostic approach, which includes the use of a decision tree, useful for differentiating the different types of breast papillary lesions.

Inflammatory Breast Carcinoma (IBC) is a rare but aggressive form of breast carcinoma. Characteristic clinical and pathological features are well documented. Pathological response to chemotherapy is currently the only identified prognostic factor. This high-grade tumor exhibits phenotypical features of an aggressive tumor: absence of hormonal receptors in 56 to 83% of cases, high proliferating index, p53 expressed in 30 to 69%, Immunohistochemistry (IHC) detection of HER2 over expression in 38 to 60%. Current work on IBC points out specific molecular mechanisms: adhesion molecules such as E-Cadherin, apomucin MUC1 and angiogenesis processes contribute to the IBC phenotype. So does a gene named WISP3. This gene has been recently cloned and sequenced. It has been shown to be lost in IBC and could control tumor growth, invasion, and angiogenesis. This paper summarizes current knowledge on IBC and describes a new basis for a molecular definition of IBC.

It is well known that the conservative reference treatment of infiltrative carcinoma of the breast, after en bloc complete excision, should be completed by irradiation of the whole breast delivering 50 Gy in 25 fractions. The discussion related to the validity and the procedures of delivery of the boost of the tumor bed has to be adjusted with our knowledge of specific prognostic factors of local recurrence. Through the two phase III randomized trials published in the literature, the young age of the patient, palpable tumor and negative receptor to progesterone may be recognized as statistically linked to a higher risk of local recurrence. Tumor size and palpable tumor remain unquestionable factors of bad prognosis. The true level of significativeness of age remains controversial as well as peri-tumoral characteristics such as ductal carcinoma in situ. Treatment technique should be rigorous either in terms of prescription of external radiation therapy or for the boost. They have a major impact on the cosmetic result and the fibrosis rate. Improvement of the results is expected through careful analysis of genic and molecularly prognostic factors of the tumor in order to select patients amenable to this type of technique.

Recent progresses in molecular biology have allowed us to identify at least two different molecular mechanisms implicated in colorectal carcinogenesis: chromosomal instability and genetic instability. These two molecular mechanisms are supported by two hereditary syndromes that predispose to colorectal cancers: familial adenomatous polyposis and hereditary non polyposis colorectal cancer syndrome. In spite of these two different mechanisms, the signalling pathways implicated the malignant transformation of colonic epithelial cells seem to be the same. They are essentially represented by APC/beta-catenin, TGFbeta, RAS and TP53 signalling pathways. This new molecular classification of colorectal cancers is important for the understanding of molecular alterations responsible for tumour development but also for the management of patients.