Philippe Berthon

Predisposing Gene for Early-Onset Prostate Cancer, Localized on Chromosome 1q42.2-43

There is genetic predisposition associated with >=10% of all cancer of the prostate (CaP). By means of a genomewide search on a selection of 47 French and German families, parametric and nonparametric linkage (NPL) analysis allowed identification of a locus, on chromosome 1q42.2-43, carrying a putative predisposing gene for CaP (PCaP). The primary localization was confirmed with several markers, by use of three different genetic models. We obtained a maximum two-point LOD score of 2.7 with marker D1S2785. Multipoint parametric and NPL analysis yielded maximum HLOD and NPL scores of 2.2 and 3.1, respectively, with an associated P value of . 001. Homogeneity analysis with multipoint LOD scores gave an estimate of the proportion of families with linkage to this locus of 50%, with a likelihood ratio of 157/1 in favor of heterogeneity. Furthermore, the 9/47 families with early-onset CaP at age <60 years gave multipoint LOD and NPL scores of 3.31 and 3.32, respectively, with P = .001.

Prostate carcinoma risk and allelic variants of genes involved in androgen biosynthesis and metabolism pathways

Ethnicity, when it is used to mean shared genetic inheritance within a group, has become one of the most important factors in determining prostate carcinoma risk. Genetic polymorphisms were hypothesized to be the probable explanation for differences in risk among ethnic groups. The authors evaluated the association between polymorphisms in genes involved in the androgen biosynthesis and metabolism pathway and the risk of prostate carcinoma.

Quantification of expression of netrins, slits and their receptors in human prostate tumors

Recently, DCC (Deleted in Colorectal Cancer) protein has been forwarded as a receptor for netrin. The Netrin/DCC complex is critical for axon guidance and cell migration. In the developing nervous system, netrin protein secreted by midline cells attracts commissural axons by activating the DCC receptor on growth cones. This attraction can be switched to repulsion or silenced completely, depending on the DCC binding partner. The potential suppressor function of DCC in prostate tumorigenesis, through a still unknown mechanism, prompted us to quantify the expression of several genes involved in this axon guidance pathway. The relative expression levels of DCC, NEO1, NTN1, NTN2L, NTN4, UNC5C, Slit1, Slit2, Slit3, Robo1 and Robo2 were simultaneous quantified in 48 tumors and 7 normal prostate tissues by using real‐time quantitative reverse transcriptase‐polymerase chain reaction (RT‐PCR). A reduction in DCC, NEO1, NTN1 and NTN4 expression was observed in prostate tumors, while many of the same prostate tumors over‐expressed either Slit genes or their receptors, Robo.

Early-onset hereditary prostate cancer is not associated with specific clinical and biological features.

Familial prostate cancer (CaP) accounts for 15–20% of all CaP, and hereditary CaP for 5–10% of patients. Few data are available concerning their clinical and biological features.

Evaluation and clinical value of neuroendocrine differentiation in human prostatic tumors

Prostate cancer, like other solid tumors, is a rather heterogeneous entity. More than 50% of all malignant prostatic tumors contain neuroendocrine‐like cells, which cannot be attributed to small cell prostatic carcinoma or carcinoid‐like tumors, which represent only 1–2% of all prostatic malignancies. Several investigators have reported that histopathologic determination of neuroendocrine differentiation in prostate carcinomas may have prognostic implications, while others have not confirmed these results. However, on the basis of experimental data, neuroendocrine‐like cells appear to be involved in the emergence of androgen‐independent cells and could be a target for new prostate cancer therapeutic strategies.

PCAP is the major known prostate cancer predisposing locus in families from south and west Europe

To date four prostate cancer predisposing loci have been mapped: HPC1 (Hereditary Prostate Cancer 1) on 1q24-25, PCaP (Predisposing for Cancer Prostate) on 1q42.2-43, CAPB (Cancer Prostate and Brain) on 1p36, and HPCX on Xq27-28. We examined evidence for linkage to those loci in 64 families from south and west Europe. Genotyping of three (six for PCaP) markers encompassing the candidate regions were performed on 221 individuals including 159 affected patients. The resulting data were analysed using both parametric and non parametric linkage methods. No significant evidence of linkage to HPC1, CAPB, or HPCX was found either in the whole population or when pedigrees were stratified according to criteria specific to each locus. By contrast, results in favour of linkage to PCaP locus were observed with maximum multipoint NPL and HLOD scores of 2.8 (P = 0.0026) and 2.65 respectively. Homogeneity analysis performed with multipoint LOD scores gave an estimated proportion of families with linkage to this locus up to 50%. Particularly, families with an earlier age at diagnosis (⩽65-years-old) contributed significantly to the evidence of linkage with a maximum multipoint NPL score of 2.03 (P = 0.024). Those results suggest that PCaP is the most frequent known locus predisposing to hereditary prostate cancer cases from families from south and west Europe.

UPREGULATION OF ENDOTHELIN 1 AND ITS PRECURSOR BY IL-1β, TNF-α, and TGF-β IN THE PC3 HUMAN PROSTATE CANCER CELL LINE

Abstract Increasing evidence indicates that endothelin 1 (ET-1) is implicated in prostate tumour progression. However, data on ET-1 regulation in human prostate and prostate cancer cell lines are lacking. In this study, regulation of ET-1 and its precursor big ET-1, using PC3 cells, a human bone metastatic prostatic carcinoma cell line, was addressed. ET-1 and big ET-1 assays demonstrated greater secretion of both peptides in the presence of 10% fetal calf serum (FCS) as compared with 0.5% FCS. Incubation of PC3 cells in the absence and presence of various cytokines and growth factors known to be implicated in prostate stroma-epithelium interactions, revealed that IL-6, FGF7/KGF and FGF2/bFGF had no effect on ET-1 and big ET-1 secretion, whereas interleukin 1β (IL-1β), tumour necrosis factor α (TNF-α) and transforming growth factor β (TGF-β) stimulated their secretion in a concentration-dependent manner. Binding experiments indicated the presence of specific ET-1 receptors in PC3 cells: K d app =1.1×0.2×10 −10 M, B max =2660±390 sites/cell. Data analysis demonstrated the presence of only the ETA receptor subtype in PC3 cells. In conclusion, our results indicate that the implication of ET-1 in prostate cancer is likely to be mediated via paracrine/autocrine control of cell factors.

Early onset and familial predisposition to prostate cancer significantly enhance the probability for breast cancer in first degree relatives.

Genetic predisposition accounts for ≥10% of all cancer of the prostate (CaP) and is therefore considered a major risk factor, together with age and ethnic origin. Several epidemiological studies have suggested that familial clustering of CaP may be associated with an increased frequency of breast and other cancers among relatives. In order to correlate the incidence of CaP with prevalence of breast and other cancers, we have performed uni‐ and multi‐variate analyses on 691 complete pedigrees including probands, who were consecutive patients with confirmed CaP treated in three French urological departments. We have shown a significantly higher risk (RR = 2.3, p = 0.01) to develop breast cancer in families with multiple than in those with a single CaP. Risk of observing other types of cancer within these families was not significant. We then calculated the breast cancer risk in early onset prostate cancer families, and observed a relative risk that is even more significant (RR = 5.5, p = 0.002). Furthermore, the risk was >30 times that a probands mother have breast cancer if CaP occurred below 55 years of age, rather than after 75 years (p = 0.003). This study has therefore shown for the first time, the relatively high penetrance for breast cancer in relatives of early onset CaP patients. Int. J. Cancer 86:883–887, 2000.

Androgens are not a direct requirement for the proliferation of human prostatic epithelium in vitro

The androgen receptor pathway is known to be a key regulator of growth in the normal and pathological prostate. However, the precise mechanisms of this signaling pathway with respect to the different cellular compartments of the prostate remain largely unknown. We have used a primary culture system to grow human prostatic epithelial cells of normal, benign, tumor and metastatic origin, as well as immortalized human prostatic epithelial cell lines, to demonstrate the absence of a direct or indirect effect of androgens on cellular proliferation in vitro. In parallel to this observed androgen independence for growth, all cell systems lost significant expression of androgen receptor, prostate‐specific antigen and prostatic acid phosphatase. Since the androgen receptor is expressed in the epithelium in situ, our results suggest that the androgen effect on epithelial cells may be one of prostatic differentiation rather than proliferation, and that the androgen receptor/growth factor pathway acts through mesenchymal‐epithelial interactions. Int. J. Cancer 73:910–916, 1997.

Segregation Analysis of Prostate Cancer in France: Evidence for Autosomal Dominant Inheritance and Residual Brother-brother Dependence

Four segregation analyses concerning prostate cancer (CaP), three conducted in the United States and one in Northern Europe, have shown evidence for a dominant major gene but with different parameter estimates. A recent segregation analysis of Australian pedigrees has found a better fit of a two‐locus model than single‐locus models. This model included a dominantly inherited increased risk that was greater at younger ages and a recessively inherited or X‐linked increased risk that was greater at older ages. Recent linkage analyses have led to the detection of at least 8 CaP predisposing genes, suggesting a complex inheritance and genetic heterogeneity.