Gildas Rigaud

Pancreatic tumours: molecular pathways implicated in ductal cancer are involved in ampullary but not in exocrine nonductal or endocrine tumorigenesis.

Alterations of K-ras, p53, p16 and DPC4/Smad4 characterize pancreatic ductal cancer (PDC). Reports of inactivation of these latter two genes in pancreatic endocrine tumours (PET) suggest that common molecular pathways are involved in the tumorigenesis of pancreatic exocrine and endocrine epithelia. We characterized 112 primary pancreatic tumours for alterations in p16 and DPC4 and immunohistochemical expression of DPC4. The cases included 34 PDC, 10 intraductal papillary-mucinous tumours (IPMT), 6 acinar carcinomas (PAC), 5 solid-pseudopapillary tumours (SPT), 16 ampulla of Vater cancers (AVC) and 41 PET. All tumours were also presently or previously analysed for K-ras and p53 mutations and allelic loss at 9p, 17p and 18q. Alterations in K-ras, p53, p16 and DPC4 were found in 82%, 53%, 38% and 9% of PDC, respectively and in 47%, 60%, 25% and 6% of AVC. Alterations in these genes were virtually absent in PET, PAC or SPT, while in IPMT only K-ras mutations were present (30%). Positive immunostaining confirmed the absence of DPC4 alterations in all IPMT, SPT, PAC and PET, while 47% of PDC and 38% of AVC were immunonegative. These data suggest that pancreatic exocrine and endocrine tumourigenesis involves different genetic targets and that among exocrine pancreatic neoplasms, only ductal and ampullary cancers share common molecular events.

Molecular Characterization of Pancreatic Serous Microcystic Adenomas: Evidence for a Tumor Suppressor Gene on Chromosome 10q

Pancreatic serous microcystic adenomas (SCAs) are rare, benign tumors with a striking female preference. Virtually no information is available about chromosomal or genetic anomalies in this disease. We performed extensive molecular characterization of 21 cases of formalin-fixed, paraffin-embedded sporadic SCAs consisting in genome-wide allelic loss analysis with 79 microsatellite markers covering all 22 autosomes, assessment of microsatellite instability, and mutational analysis of the VHL, K-ras, and p53 genes in nine cases for which frozen tissue was available. Although no case showed microsatellite instability of the type seen in mismatch repair-deficient tumors, a relatively low fractional allelic loss of 0.08 was found. Losses on chromosome 10q were the most frequent event in SCAs (50% of cases), followed by allelic losses on chromosome 3p (40% of cases). Moderately frequent losses (>25% of cases) were found on chromosomes 1q, 2q, and 7q. The VHL gene, located on chromosome 3p, had somatic inactivating mutations in two of nine cases (22%), whereas no mutations were found in either K-ras or p53, in agreement with the finding that all 21 cases stained negative for p53 by immunohistochemistry. Our study indicates that the involvement of chromosomal arms 10q and 3p is characteristic of SCAs and that the VHL gene is involved in a subset of sporadic cases.

Allelotype of pancreatic acinar cell carcinoma

Pancreatic acinar cell carcinoma (PAC) is a rare pancreatic tumor for which no information about chromosomal and gene anomalies is available. We performed genome‐wide allelotyping of 9 PACs using DNA from 5 frozen and 4 paraffin‐embedded samples and 76 PCR‐amplified, chromosome‐specific microsatellite markers. High degrees of allelic loss were found, with a mean fractional allelic loss of 0.33. Chromosomes 1p, 4q and 17p showed loss of heterozygosity in >70% of cases and chromosomes 11q, 13q, 15q and 16q, in 60% to 70% of cases. Chromosomes 3q, 6q, 8q, 18q and 21q showed loss in 50% to 60% of cases. All of the remaining chromosomes showed no or few allelic losses. The resulting allelotype of PAC is markedly different from that of either ductal or endocrine tumors of the pancreas, and the involvement of chromosomes 4q and 16q appears to be characteristic of this tumor type. High‐resolution mapping of the 12 frequently altered chromosomes in 5 cases with 222 markers permitted subchromosomal localization of regions of consensus loss on 5 chromosomes, including 1p36.31, 3p25.2, 4q26‐31.1, 15q15‐22.1 and 16q21‐q22.1. Our findings suggest that PAC tumorigenesis involves molecular pathways different from those occurring in more common pancreatic tumor types. Int. J. Cancer 88:772–777, 2000.

Nonrandom chromosomal imbalances in primary mediastinal B-cell lymphoma detected by arbitrarily primed PCR fingerprinting.

We used arbitrarily primed polymerase chain reaction (AP‐PCR) fingerprinting to identify chromosomal imbalances in six primary mediastinal B‐cell lymphomas (PMBLs). Seventy‐four chromosomal imbalances were detected, consisting of 49 sequence gains and 25 losses. Amplifications on chromosome X were seen in five cases, four of which involved the same chromosomal locus. Nonrandom gains at the same locus were also identified on chromosomes 2 and 7 in four cases and on chromosomes 5, 9, and 12 in three cases. Five PMBLs were also analyzed by comparative genomic hybridization (CGH), which found chromosome arm 9p amplification as the only nonrandom imbalance. Our data demonstrate that chromosomal amplifications outnumber losses in PMBL. These mainly involve chromosomes 9 and X and may reflect more complex phenomena, such as translocations or other chromosomal rearrangements, as AP‐PCR found coexistent gains and losses on these chromosomes. Comparison between AP‐PCR and CGH suggests that anomalies affecting the same chromosomal regions may occur at much higher frequencies than expected by CGH, suggesting that genomic amplifications are usually confined to DNA segments smaller than the megabase long segments required for detection in CGH. Modest increases in genetic material may be as effective as higher‐level amplifications when affecting sites where a proto‐oncogene resides. Genes Chromosomes Cancer 26:203–209, 1999.

Molecular features of primary mediastinal B-cell lymphoma: involvement of p16INK4A, p53 and c-myc

Primary mediastinal B‐cell lymphoma (PMBL) shows chromosome 9p anomalies in 50% of cases. Based on reports that p16INK4A gene, located on this chromosomal arm, is frequently altered in aggressive lymphomas, we analysed for alterations of this gene in 27 cases of PMBL, which were part of a series of 32 PMBL cases that have been characterized for alterations in c‐myc, p53, N‐ras, bcl‐1, bcl‐2, bcl‐6 and for Epstein‐Barr virus (EBV) infection. Four cases showed p16INK4A gene anomalies, including three with promoter methylation and one homozygous deletion. Eight PMBLs showed c‐myc rearrangements. Three additional cases showed sequence variations in the c‐myc P2 promoter, two of which consisted of the same germline variation involving a novel polymorphic XhoI site. Four tumours contained p53 gene mutations and three had clonal EBV infection. One case had a bcl‐6 rearrangement. In conclusion, our study shows that p16INK4, c‐myc and p53 alterations occur in 15%, 25% and 13% of PMBLs, respectively. EBV monoclonality was found in 9% of cases, whereas no abnormality was detected in bcl‐1, bcl‐2 and N‐ras. Thus, none of the common genetic aberrations seen in other types of non‐Hodgkins lymphomas appears to be stringently involved in the pathogenesis of this unique lymphoma type.

Alteration of chromosome arm 6p is characteristic of primary mediastinal B-cell lymphoma, as identified by genome-wide allelotyping.

Five cases of primary mediastinal B‐cell lymphoma (PMBL) each have been studied with 375 microsatellite markers from all 22 autosomes. Of the 151 genomic alterations among the 1,875 assays, only five were allelic losses. The remainder of the microsatellite alterations consisted of 114 allelic imbalances and 32 instabilities. Microsatellite alterations were found in all cases on chromosomal arms 6p and 9p. These allelic imbalances most likely are indicative of genetic amplification, a finding agreeing well with those of studies using either comparative genomic hybridization or arbitrarily primed polymerase chain reaction, in which amplification of chromosome arm 9p in PMBL has been found. The allelic imbalances on chromosome arm 6p always included marker D6S276 located at 6p21.3‐p22.3, where the MHC class I genes reside. These allelic imbalances may be reflective of alterations in the expression of the MHC gene products, characteristic of PMBL. Allelic anomalies close to the MYB gene locus on 6q were detected in two cases and prompted the analysis of MYB rearrangements in a series of 30 lymphomas. One rearrangement was detected in one of 18 cases of PMBL and in none of 10 diffuse, large B‐cell lymphomas and two T‐cell lymphomas. Our genome‐wide microsatellite analysis provides independent confirmation that PMBL is characterized by infrequent chromosomal losses and by frequent genetic alterations involving chromosomal arm 9p. For the first time, chromosomal arm 6p has been identified as a highly frequent target of genetic alterations in this tumor type. Finally, MYB may also be involved occasionally in PMBL pathogenesis.

Pancreatic acinar carcinoma shows a distinct pattern of chromosomal imbalances by comparative genomic hybridization.

Pancreatic acinar cell carcinoma (PAC) is a rare pancreatic tumor for which no information about chromosomal anomalies is available. We examined six primary PACs by comparative genomic hybridization (CGH). All cases showed chromosomal changes. A total of 106 gains and 48 losses was detected. Consensus regions of gain were identified on chromosomes 1, 12, and X: 1q21 in four cases, 1q42 in three cases, 12p11.2 in four cases, and Xq12–21 in three cases. Recurrent losses were found at 16p13.2–p13.1 in three cases and at 16q23 in three cases. To verify these chromosomal imbalances, microsatellite analysis of matched normal and tumor DNA was performed using PCR‐amplified markers for chromosomes 1, 12, and 16 in the regions showing nonrandom gains or losses. This analysis showed allelic imbalances in tumor DNA consistent with the CGH profiles. Our CGH study suggests that PAC shows a characteristic pattern of chromosomal alterations, involving gain at 1q, 12p, and Xq and loss of sequences at 16p and 16q. This pattern appears unique among solid tumors and is markedly different from that detected in pancreatic ductal carcinomas by the same technique. This suggests that PAC tumorigenesis involves different molecular pathways than those involved in the more common pancreatic ductal tumors. Genes Chromosomes Cancer 28:294–299, 2000.

Genetic alterations in primary mediastinal B-cell lymphoma: an update.

Primary mediastinal B-cell lymphoma (PMBL) is a distinct clinical entity among non-Hodgkins lymphoma. The malignancy has received little attention from a standpoint of basic research due in part to its rarity. However, based on recent studies consistent trends are beginning to emerge regarding the molecular and chromosomal alterations commonly observed in this disease. By both CGH and AP-PCR, genetic gains involving chromosomes 2, 5, 7, 9p, 12, and Xq are among the most frequently observed events. From a molecular standpoint, alterations in the c-myc, p16INK4 and p53 genes have been observed in up to 30% of cases. This information along with the well-established histological, immunological, and clinical features should convince the few remaining disbelievers that PMBL is a distinct pathological entity among non-Hodgkins lymphomas.