The role of chromosome 8p22 deletion for predicting disease progression and pathological staging in prostate cancer.

The natural course of human prostate cancer is highly variable, and we still lack reliable tools to predict the patient's outcome. Recent publications suggest that the deletion of chromosome 8p22 has an important role for tumor progression in prostate cancer. Totally, 97 patients (41 Japanese and 56 Swedish) were studied to detect the status of chromosome 8p22 deletion by the fluorescence in situ hybridization (FISH) technique. Seventy-seven underwent surgery (59 radical prostatectomies or 18 lymph node dissections), and the specimens were prepared by touch biopsy. Fine-needle aspiration biopsies (FNAB) were obtained from another non-operative 20 cases. Disease progression was evaluated in 57 patients with a median follow-up of 59 months. 8p22 deletions were detected in 58 (60 %) of all cases. The frequency of 8p22 deletion did not significantly differ between different preparations of specimens (touch biopsy vs. FNAB) as well as between different races (Japanese vs. Swedish). Cases with more than pT3 tumors had a significantly higher frequency of 8p22 deletion than those with pT2 (p < 0.01). Multivariate analysis demonstrated that 8p22 deletion was the strongest parameter to predict disease progression (hazard ratio = 5.75; p = 0.0001). Studies on chromosomal deletions of 8p22 by the FISH technique may serve as a universal genetic marker to optimize the treatment strategy in patients with prostate cancer.

Clinical and genetic studies of Birt-Hogg-Dubé syndrome.

Birt-Hogg-Dubé syndrome (BHD) is an autosomal dominant cancer syndrome characterised by benign skin tumours, renal tumours, and spontaneous pneumothorax. The gene has been mapped to chromosome 17p11.2 and recently identified, expressing a novel protein called folliculin. We report the clinical and genetic studies of four sporadic BHD cases and four families with a total of 23 affected subjects. Haplotype analysis of these families using BHD linked markers showed they did not share the same affected alleles, excluding common ancestry. Mutation analysis of the BHD gene identified two germline mutations on exon 11 (c.1733insC and c.1733delC) in three of four families as well as two of four sporadic cases. A novel somatic mutation, c.1732delTCinsAC, was detected in a BHD related chromophobe renal carcinoma. Our results confirmed the (C)8 tract in exon 11 as a mutational hot spot in BHD and should always be considered for future genetic testing. Our observation also indicated that the second hit (of Knudson's two hit theory) in some BHD related tumours is in the form of somatic mutation rather than LOH. In a large French family in which eight affected subjects carry the c.1733delC mutation, a phenocopy who has multiple episodes of spontaneous pneumothorax was identified. A total of five mutation carriers (aged between 37 to 66) did not have any evidence of BHD features, suggesting either reduced penetrance or late age of onset of the disease. In addition, six out of eight affected subjects who have positive germline mutation have confirmed neoplastic colonic polyps, indicating that colorectal neoplasia is an associated feature of BHD in some families. Our studies have observed several interesting genetic features in BHD: (1) the poly (C) tract in exon 11 as a mutational hot spot; (2) the existence of phenocopy; (3) reduced penetrance or late age of onset of disease; (4) association with colorectal neoplasia in some families; and (5) somatic mutation instead of LOH as the second hit in BHD tumours.

Deletions on chromosome 8p22 may predict disease progression as well as pathological staging in prostate cancer.

PURPOSE: A recent report demonstrated that the deletion of chromosome 8p22 could predict disease progression in stage III (capsular penetrating) prostate cancer. We studied if the status of chromosomal deletions of 8p22 could reflect pathological stage as well as patient prognosis, thereby serving as a diagnostic tool to optimize the treatment strategy in prostate cancer. EXPERIMENTAL DESIGN: A total of 97 patients (41 Japanese and 56 Swedish) were studied by the fluorescence in situ hybridization technique. Seventy-seven patients (23 pT2, 18 pT3, and 36 pN+ tumors) underwent surgery (radical prostatectomy or lymph node dissection). The specimens were prepared by touch biopsy. From another 20 cases, fine-needle aspiration biopsies were obtained. RESULTS: 8p22 deletions were detected in 47 (61%) and 11 (55%) specimens of 77 touch biopsies and 20 fine-needle aspiration biopsies, respectively. No significant difference was found in the frequency of 8p22 deletion between different preparations of specimens, as well as between different races (Japanese versus Swedish). The frequency of 8p22 deletion was statistically higher in patients with pT3 or more than in those with pT2 (P < 0.01). Disease progression was evaluated in 57 patients. The Cox proportional hazards model revealed 8p22 deletion to be the strongest parameter to predict disease progression (hazards ratio = 5.75; P = 0.0001). CONCLUSIONS: Studies on chromosomal deletions of 8p22 by fluorescence in situ hybridization technique may serve as a genetic marker to optimize the treatment strategy in patients with prostate cancer to the optimal treatment.

Characterization of chromosomal abnormalities in uroepithelial carcinomas by G-banding, spectral karyotyping and FISH analysis.

Chromosome analysis by G-banding, spectral karyotyping (SKY) and fluorescence in situ hybridization (FISH) was performed on 24 short-term cultured transitional cell bladder carcinomas and 5 cell lines established from bladder carcinomas. Except for one tumor with an apparently normal chromosomal constitution, clonal chromosome abnormalities were detected in all examined cases by the combined approach. The application of SKY and FISH techniques improved the karyotypic descriptions, originally based on G-banding only, by identifying 32 additional numerical changes, by establishing the chromosomal origin of 27 markers and 2 ring chromosomes, by redefining 53 aberrations and by detecting 15 hidden chromosomal rearrangements. No recurrent translocation, however, was detected. The most prominent karyotypic feature was thus the occurrence of deletions and losses of whole chromosome copies indicating the importance of tumor suppressor genes in transitional cell carcinoma pathogenesis. Invasive carcinomas were karyotypically more complex than were low grade superficial tumors. Specific losses of material from chromosome 9 and from chromosome arms 11p and 8p, and gains of 8q and 1q seem to be early changes appearing in superficial tumors, whereas losses from 4p and 17p and the formation of an isochromosome for 5p were associated with more aggressive tumor phenotypes.

5q11, 8p11, and 10q22 are recurrent chromosomal breakpoints in prostate cancer cell lines.

Prostate cancer cell lines have been widely used as model systems characterizing pathogenetic, functional, and therapeutic aspects of prostate cancer development. However, their chromosomal compositions are poorly characterized. In this study, five prostate cancer cell lines-TSU-Pr1, JCA-1, NCI-H660, ALVA-31, and PPC-1-were investigated by G-banding, comparative genomic hybridization (CGH), and spectral karyotyping. The results were combined with our previous findings in the prostate cancer cell lines PC-3, DU145, and LNCaP. By comparative genomic hybridization (CGH), the most frequent losses were observed at 13q, 8p, 9p, and 4q, whereas gains were most commonly seen at 8q, 10q, and 18p. The composite karyotypes were characterized by multiple numerical and structural chromosomal aberrations. Recurrent breakpoints at 5q11, 8p11, and 10q22 were observed to participate in deletion and translocation events in five of the cell lines, suggesting the importance of tumor suppressor and/or oncogenes in these regions. ALVA-31 and PPC-1 shared nine identical derivative chromosomes, two of which have also been detected in PC-3. In addition, the identification of the same homozygous deletion at D10S541 and of an identical TP53 gene mutation in all three cell lines suggests a common origin of these cell lines.

Chromosome 8 numerical aberration and C-MYC copy number gain in bladder cancer are linked to stage and grade.

Chromosome 8 aberration and c-myc amplification have been suggested as playing important roles in the development of different human cancers. Using fluorescence in situ hybridization (FISH), chromosome 8 polysomy and c-myc amplification can be detected in cells from bladder cancer. We investigated the correlation of chromosome 8 polysomy, c-myc gene alteration and p53 deletion with histopathological parameters. Twenty-four tumors obtained from patients with bladder cancer were analyzed by interphase cytogenetics using FISH with chromosome 8 and 17 centromere probes together with an YAC clone covering the c-myc locus and three cosmid DNA probes covering the p53 locus. Chromosome 8 polysomy was found in 12 tumors. The average copy number of chromosome 8 centromere signals were significantly higher in high grade and stage, cancers. Also the c-myc copy gain and p53 deletion were significantly correlated with grade as well as stage (p<0.05, in both cases). Both polysomy 8 and c-myc copy gain were significantly correlated with p53 deletions (p<0.01) and DNA ploidy (p<0.001). On the contrary there was no significant correlation between c-myc protein over-expression and c-myc gene amplification. These results may indicate that alteration of chromosomal regions on 8q and 17p, including c-myc and p53 genes, may be linked to progression of bladder cancer.

Chromosomal numerical aberrations detected by fluorescence in situ hybridization on bladder washings from patients with bladder cancer.

OBJECTIVE: Previous studies on touch biopsy specimens have determined numerical or structural changes involving many different chromosomes in bladder cancer. The aim of this study was to evaluate the use of fluorescence in situ hybridization (FISH) assay in bladder washings as an objective technique to detect chromosomal numerical aberrations in bladder cancer. The main advantages of bladder washings are that they can be easily collected during the clinical follow-up of patients with superficial bladder cancer and they do not contain so many degenerate cells as urine samples. METHODS: We collected specimens from 25 patients who underwent transurethral resection of bladder tumors. Double target FISH assays with centromeric labeled probes for chromosomes 7, 8, 9 and 11 were used on the bladder washings and on the touch biopsy slides. The results were compared to flow cytometry and tumor grade and stage. RESULTS: We found monosomy 9 and trisomy 7, 8, 9 and 11 in 28, 32, 36, 28 and 25% respectively of the patients. FISH analysis of bladder washing versus touch biopsy specimens were concordant in approximately 90% of the slides. Total DNA aneuploidy correlated well with numerical aberrations of chromosomes 7, 8 and 11, but not with chromosome 9. CONCLUSION: Although better hybridization efficiency was obtained on touch biopsy slides, the results in bladder washings were in high concordance. FISH analysis on bladder washing samples may become a simple tool to improve the accuracy of cytology.

Combined LOH/CGH analysis proves the existence of interstitial 3p deletions in renal cell carcinoma.

We have recently developed an allele titration assay (ATA) to assess the sensitivity and influence of normal cell admixture in loss of heterozygosity (LOH) studies based on CA-repeat. The assay showed that these studies are biased by the size-dependent differential sensitivity of allele detection. Based on these data, we have set up new criteria for evaluation of LOH. By combining these new rules with comparative genome hybridization (CGH) we have shown the presence of interstitial deletions in renal cell carcinoma (RCC) biopsies and cell lines. At least three out of 11 analysed RCC cell lines and three out of 37 biopsies contain interstitial deletions on chromosome 3. Our study suggests the presence of several regions on human chromosome 3 that might contribute to tumor development by their loss: (i) 3p25-p26, around the VHL gene (D3S1317); (ii) 3p21. 3-p22 (between D3S1260 and D3S1611); (iii) 3p21.2 (around D3S1235 and D3S1289); (iv) 3p13-p14 (around D3S1312 and D3S1285). For the first time, AP20 region (3p21.3-p22) was carefully tested for LOH in RCC. It was found that the AP20 region is the most frequently affected area. Our data also suggest that another tumor suppressor gene is located near the VHL gene in 3p25-p26.

Precancerous lesions in the kidney.

Renal cell carcinoma (RCC), although occurring less frequently than prostate and bladder cancer, is actually the most malignant urologic disease, killing >35% of affected patients. Therefore, investigation of the nature of premalignant lesions of the kidney is a relevant issue. Following the most recent histological classification RCC can be subdivided into four categories: conventional RCC; papillary RCC; chromophobe RCC; and collecting duct carcinoma. In contrast to many genitourinary malignancies, premalignant alterations in the kidney are scarcely described. Intratubular epithelial dysplasia has been recognized as the most common precursor of RCC. In analogy to prostatic intraepithelial neoplasia (PIN), the premalignant lesions of the kidney are described as high or low-grade renal intratubular neoplasia. In contrast, precancerous lesions have been described as part of the von Hippel-Lindau syndrome (VHL) where the evolution from a simple cyst to an atypical cyst with epithelial hyperplasia to cystic or solid conventional-type RCC is well documented. Finally, in the genesis of papillary RCC an adenoma-carcinoma sequence has been recognized with specific genetic changes. There are no data on the epidemiology of premalignant lesions of the kidney, but research into the etiology of RCC has been extended substantially. Familial and genetic factors are well documented in VHL disease, in hereditary papillary RCC, in the tuberous sclerosis complex and in familial RCC. Cigarette smoking and obesity are established risk factors for RCC. Hypertension or its medication has also been associated with an increased risk. Among dietary factors an inverse relation between risk and consumption of vegetables and fruit has been found. Occupational exposure to substances such as asbestos and solvents has been linked to an increased risk of RCC. Specific RCC variants have distinctive chromosome alterations and several genes have been implicated in the development of RCC. Loss of material from the 3p chromosome characterizes conventional RCC and the deletion of the VHL suppressor gene plays an important role in the genesis of this RCC variant. In contrast, numerical changes with trisomy of chromosomes 7 and 17 and loss of the sex chromosome are typical changes in papillary tumors, whereas papillary RCC have additional trisomies. Chromophobe RCC is characterized by loss of chromosomes with a combination of monosomies. Less consistent genetic alterations are associated with collecting duct carcinoma. The traditional treatment of RCC is surgery by radical or partial nephrectomy. The latter approach carries a risk of tumor recurrence as a result of unrecognized satellite lesions or premalignant lesions that might have been present at the time of surgery. However, the reported recurrence rates after partial nephrectomy are <1% and therefore the possible presence of premalignant disease does not alter the actual treatment strategy advocated. Although multifocality and bilateral occurrence of RCC are much more likely in cases of papillary RCC, biopsy of the renal remnant or contralateral kidney is not justified even in patients with this tumor type. Conversely, patients with RIN in a partial or radical nephrectomy specimen or in a renal biopsy taken for whatever reason should be subjected to closer follow-up with regularly repeated ultrasound. When an effective chemopreventive regimen becomes available it might be useful for patients with an inherited risk of RCC as well as in those who are at risk of tumor recurrence after intervention. Mass screening with the purpose of detecting RCC at its earliest stage is not recommended at the present time, but screening focused on certain risk groups can be advocated. Further research is needed to identify avoidable risks, develop effective chemoprevention and recognize patients at risk.

Distinct deleted regions on chromosome segment 16q23-24 associated with metastases in prostate cancer.

Cadherins (CDH) are cell adhesion molecules and their dysfunctions have been implicated in the development of cancer metastases. Several cadherin genes are tandemly located on 16q, which is frequently deleted in prostate cancer. We therefore used 22 markers on 16q to localize important deleted regions in metastases of this tumor. We found 16q deletions in 24/32 (75%) tumors. All lymph node and brain metastases showed extensive deletions, while 52% of primary tumors displayed limited deletions. Commonly deleted regions (CDRs) on 16q23-24, CDR2 (D16S515-D16S516) and CDR4 (D16S520-D13S3028), were strongly associated with metastases and increased Gleason score. Reduced CDH1 (E-cadherin) expression was seen in 16/32 (50%) tumors, but the CDH1 gene is not within either of these two regions. Sequencing analysis for all 16 exons of the CDH1 gene did not reveal any mutations in 10 tumors, including three brain metastases with both 16q22.1 deletion and absent E-cadherin expression. Our results implicate other, yet unidentified genes on 16q23-24 to be the frequent targets of mutations and deletions in prostate cancer metastases.

Comparison of comparative genomic hybridization, fluorescence in situ hybridization and flow cytometry in urinary bladder cancer.

Comparative genomic hybridization (CGH) was applied to screen the genetic events in six invasive urinary bladder cancers. These cases were also studied by flow cytometry (FCM) and fluorescence in situ hybridization (FISH). Four samples showed partial gain on chromosome 8, with the common region involved was on 8q23-qter. Full or partial deletion on chromosome 2 and 17p in addition to gain on 20q was found in two cases. Interestingly one diploid tumor with low mitotic index, stage and grade showed more genetic aberrations (8 gains and 7 losses) by CGH than other aneuploid tumors with high mitotic index, stage and grade. The numerical chromosomal aberration detected by FISH for chromosomes 7, 8, 9, 10, 11 and 17 were 50% in T1 cases and 100% in T2-T4 cases. FISH was performed on chromosome 8q and 17p to compare and validate the sensitivity of CGH. The agreement was 100% for 8q24 locus and 50% for p53 locus. This indicates that different molecular genetic techniques showed relatively different aspect of genomic aberrations.

Links between genetic and environmental factors and prostate cancer risk.

BACKGROUND: Genetic polymorphisms and expression of steroid receptors may explain why some individuals are more at risk of developing prostate cancer. Some risk factors often discussed are androgen stimulation, and vitamin A and D deficiency. Long CAG-repeats in exon 1 of the androgen receptor (AR) gene on the X chromosome seem to have a protective role against androgen overstimulation. Likewise, long vitamin D receptor alleles in the poly-A tract may prevent vitamin D stimulation. METHODS: Blood samples from 59 Swedish patients with sporadic prostate cancers, 59 with hereditary prostate cancer, and 34 Japanese prostate cancer patients were compared with benign controls. Tissue specimens from 37 Swedish and 23 Japanese prostate cancer patients with matching blood samples were investigated by immunohistochemical techniques. RESULTS: The number of CAG-repeats was identical in sporadic and hereditary prostate cancer patients, but the repeats were significantly shorter than in benign controls. Benign Japanese controls were similar to Swedish controls, but Japanese prostate cancers had longer repeats than did controls. Both the vitamin D and A receptor staining was stronger in Japanese than in Swedish prostate cancer specimens. Prostate cancer occurs approximately 5 years later in Japanese compared with Swedish men. CONCLUSIONS: Varying lengths of CAG-repeats of the androgen receptor cannot fully explain racial differences in clinical prostate cancer incidence. A larger content of vitamin A and D receptors may be linked to a delayed onset of clinical prostate cancer in Japanese men.

Novel mutations of the MET proto-oncogene in papillary renal carcinomas.

Hereditary papillary renal carcinoma (HPRC) is characterized by multiple, bilateral papillary renal carcinomas. Previously, we demonstrated missense mutations in the tyrosine kinase domain of the MET proto-oncogene in HPRC and a subset of sporadic papillary renal carcinomas. In this study, we screened a large panel of sporadic papillary renal carcinomas and various solid tumors for mutations in the MET proto-oncogene. Summarizing these and previous results, mutations of the MET proto-oncogene were detected in 17/129 sporadic papillary renal carcinomas but not in other solid tumors. We detected five novel missense mutations; three of five mutations were located in the ATP-binding region of the tyrosine kinase domain of MET. One novel mutation in MET, V1110I, was located at a codon homologous to an activating mutation in the c-erbB proto-oncogene. These mutations caused constitutive phosphorylation of MET when transfected into NIH3T3 cells. Molecular modeling studies suggest that these activating mutations interfere with the intrasteric mechanism of tyrosine kinase autoinhibition and facilitate transition to the active form of the MET kinase. The low frequency of MET mutations in noninherited papillary renal carcinomas (PRC) suggests that noninherited PRC may develop by a different mechanism than hereditary papillary renal carcinoma.

Somatic mutation and homozygous deletion of PTEN/MMAC1 gene of 10q23 in renal cell carcinoma.

We studied chromosome 10q loss of heterozygosity and PTEN/MMAC1 gene inactivation in renal cell carcinoma (RCC). Fifty-four cases of RCCs were analysed by three 10q RFLP markers. Forty one of them were heterozygous for at least one of the markers, of which fourteen showed LOH (34%). Six tumors which showed 10q deletion for RFLP markers and six randomly selected tumors without RFLP LOH were included in an extended study of 10q by eight microsatellite markers. Eight of these cases showed LOH with two smallest deleted regions (SRO) at 10q23 delineated by markers D10S541 and D10S579 while the other distal SRO is between markers D10S587 and D10S212 at 10q25-26. The five tumors with LOH covering 10q23 were selected for mutation analysis of PTEN/MMAC1 gene. One tumor without LOH of 10q23 was selected as a control. Using direct sequencing of nine exons, we found three different base pair changes in three tumors with LOH. Nine RCC cell lines were analysed for PTEN/MMAC1 gene inactivation. One homozygous deletion was detected in the cell line UOK147. No expression of PTEN/MMAC1 gene was detect by RT-PCR in the cell line UOK 147.

Characterization of chromosomal abnormalities in prostate cancer cell lines by spectral karyotyping.

Human prostate cancer is characterized by multiple gross chromosome alterations involving several chromosome regions. However, the specific genes involved in the development of prostate tumors are still largely unknown. Here we have studied the chromosome composition of the three established prostate cancer cell lines, LNCaP, PC-3, and DU145, by spectral karyotyping (SKY). SKY analysis showed complex karyotypes for all three cell lines, with 87, 58/113, and 62 chromosomes, respectively. All cell lines were shown to carry structural alterations of chromosomes 1, 2, 4, 6, 10, 15, and 16; however, no recurrent breakpoints were detected. Compared to previously published findings on these cell lines using comparative genomic hybridization, SKY revealed several balanced translocations and pinpointed rearrangement breakpoints. The SKY analysis was validated by fluorescence in situ hybridization using chromosome-specific, as well as locus-specific, probes. Identification of chromosome alterations in these cell lines by SKY may prove to be helpful in attempts to clone the genes involved in prostate cancer tumorigenesis.

Nitric oxide synthase activity in human renal cell carcinoma.

PURPOSE: Nitric oxide (NO) is generated in mammalian tissue by the conversion of L-arginine to L-citrulline. The reaction is catalyzed by nitric oxide synthase (NOS). NO has been suggested to have a dual role in tumor biology with both antitumor and tumor promoter activity. Furthermore, it has been proposed that NO contributes to interleukin-2-induced antitumor activity. Since interleukin-2 is used in the treatment of renal cell carcinoma (RCC) it was of interest to study the NOS activity in the human kidney and in RCC and its correlation to tumor grade. Furthermore, the effect of cytokine treatment on NOS activity and the effect of NO donor application was studied in cultured cells. MATERIALS AND METHODS: The effect of cytokine treatment on NOS activity and the effect of NO donor application on cell proliferation was studied in cultured human proximal tubular cells and in RCC cell lines HN4 and HN51. NOS activity was measured by the L-arginine to L-citrulline conversion assay. RESULTS: Calcium-dependent NOS activity was found in all non-malignant kidney tissues (486+/-63 pmol. min(-1) g(-1) tissue). The activity was significantly lower in RCC (24+/-6 pmol. min(-1) g(-1) tissue) and correlated with tumor grade; thus high grade tumors showed lower activity than low grade tumors. Calcium-independent NOS activity was not detected in non-malignant kidney tissue or in RCC tissue. In cultured proximal tubular cells and RCC cell lines HN4 and HN51, cytokine treatment induced a marked increase in NOS activity and NO exerted cytostatic effects on these cell lines. CONCLUSIONS: The NOS activity was higher in non-malignant kidney tissue than in RCC tissue and was inversely correlated with tumor grade. Furthermore, cytokine treatment induced a marked increase in NOS activity and NO exerted cytostatic effects on cultured proximal tubular cells and RCC cell lines.

Chromosome 16q24 deletion and decreased E-cadherin expression: possible association with metastatic potential in prostate cancer.

BACKGROUND: Deletion of chromosome 16q is a frequent aberration in prostatic carcinoma, indicating the existence of candidate tumor suppressor genes involved in the pathogenesis of prostate cancer. METHODS: Chromosome 16 numerical aberration and loss of 16q were studied by fluorescence in situ hybridization in 31 primary and 22 metastatic tumors from 53 patients. The results were compared with E-cadherin expression, tumor grade and stage, and DNA ploidy. RESULTS: Numerical chromosome 16 aberrations, 16q deletion, and loss of E-cadherin expression were found in 29%, 35%, and 29% of the primary tumors, respectively, and in 73%, 73%, and 73% of the metastases, respectively. High tumor grade and DNA aneuploidy were also found to have significant correlation with metastases. CONCLUSIONS: Deletion of chromosome 16q24 and/or loss of the E-cadherin function appears in a high frequency in metastases of prostate cancer. The strong correlations suggest that they may be important risk factors, contributing to the metastatic potential of the tumor.

Identification of two distinct deleted regions on chromosome 13 in prostate cancer.

Aberrations of 13q occur frequently in prostate cancer and this chromosome contains two known tumor suppressor genes, BRCA2 and Rb1. This study analysed 13q LOH, DNA ploidy, BRCA2 mutation and pRb expression in prostate cancers. In total, 13q deletions were found in 18 of 36 tumors but did not correlate with histological grade, stage or DNA ploidy. Two smallest regions of overlapping deletions were defined: one flanked by D13S218 and D13S153; the other flanked by D13S31 and D13S137. BRCA2 was less frequently deleted whereas Rb1 did have a high frequency of deletion. None of the two genes was located in any of these two regions. Furthermore, BRCA2 mutation was not found in the five tumors where deletions had involved the BRCA2 locus. Neither did the Rb1 deletion correlate with absent pRb expression. In addition, tetraploidy was found in 14 out of 25 tumors analysed and correlated with aberrant pRb expression. Our results indicate that 13q deletion is an early non-random event. Tumor suppressor genes other than BRCA2 or Rb1 may be the target of 13q deletions. Aberrant pRb expression may not reflect the two-hit Rb1 inactivation but may be involved in the tetraploidization of prostate cancer cells.

Germline and somatic mutations in the tyrosine kinase domain of the MET proto-oncogene in papillary renal carcinomas.

Hereditary papillary renal carcinoma (HPRC) is a recently recognized form of inherited kidney cancer characterized by a predisposition to develop multiple, bilateral papillary renal tumours. The pattern of inheritance of HPRC is consistent with autosomal dominant transmission with reduced penetrance. HPRC is histologically and genetically distinct from two other causes of inherited renal carcinoma, von Hippel-Lindau disease (VHL) and the chromosome translocation (3;8). Malignant papillary renal carcinomas are characterized by trisomy of chromosomes 7, 16 and 17, and in men, by loss of the Y chromosome. Inherited and sporadic clear cell renal carcinomas are characterized by inactivation of both copies of the VHL gene by mutation, and/or by hypermethylation. We found that the HPRC gene was located at chromosome 7q31.1-34 in a 27-centimorgan (cM) interval between D7S496 and D7S1837. We identified missense mutations located in the tyrosine kinase domain of the MET gene in the germline of affected members of HPRC families and in a subset of sporadic papillary renal carcinomas. Three mutations in the MET gene are located in codons that are homologous to those in c-kit and RET, proto-oncogenes that are targets of naturally-occurring mutations. The results suggest that missense mutations located in the MET proto-oncogene lead to constitutive activation of the MET protein and papillary renal carcinomas.