Detection of new PTEN/MMAC1 mutations in head and neck squamous cell carcinomas with loss of chromosome 10.

Alterations of the candidate tumor suppressor gene PTEN/MMAC1 and the cell cycle control gene p16((CDKN2/MTS-1/INK4a)) have been detected in many types of human cancer. Here, we wanted to study the role of PTEN/MMAC1 in head and neck squamous cell carcinomas (HNSCC) in correlation to mutation and methylation of p16 and to previous in situ hybridization results concerning loss of chromosomes 9 and 10. We screened for alterations of PTEN/MMAC1 and p16 in 52 HNSCC of different sites. Mutations of PTEN/MMAC1 were found in 23% of tumor samples (missense mutations in 7 carcinomas, 13%). A loss of chromosome 10 was detected in five carcinomas with missense PTEN/MMAC1 mutations (71%). The missense mutations of PTEN/MMAC1 occurred in exons 5 (five different mutations in the neighborhood of the protein tyrosine phosphatase domain), 6, 7, and 8. Only one of these mutations had been described before. In addition, in three laryngeal carcinomas (6%), missense mutations of p16 (in exon 2) were detected and 14% of carcinomas showed a methylation of p16. Our results focus on the essential but not solitary role of PTEN/MMAC1 in the tumorigenesis or progression of a subset of HNSCC.     

Inactivation of the PTEN/MMAC1/TEP1 gene in human lung cancers

The PTEN/MMAC1/TEP1 gene has been isolated as a tumor suppressor gene that is altered in several types of human tumors including brain, breast, and prostate cancers. In the present study, we report PTEN/MMAC1/TEP1 alterations in human lung cancers. Intragenic homozygous deletions were detected in 6 (40%) of 15 small cell lung carcinoma (SCLC) cell lines and in 2 (8%) of 25 non–small cell lung carcinoma (NSCLC) cell lines. A nonsense mutation and a missense mutation were detected in 2 (8%) NSCLC cell lines. An intragenic homozygous deletion, a 1-bp frameshift mutation, and a nonsense somatic mutation were also detected in three (6%) of 47 surgical specimens. All the lung tumors with PTEN/MMAC1/TEP1 mutations were homozygous for the mutant alleles. These findings suggest that PTEN/MMAC1/TEP1 plays a role as a tumor suppressor gene in the genesis and/or progression of human lung cancer. Genes Chromosomes Cancer 22:152–156, 1998. © 1998 Wiley-Liss, Inc.     

10q23.3 loss of heterozygosity is higher in lymph node-positive (pT2-3,N+) versus lymph node-negative (pT2-3,N0) prostate cancer

Loss of heterozygosity (LOH) in the region of 10q23.3 has been associated with multiple tumors, including glioblastoma multiforme, melanoma, endometrial carcinoma, and prostate carcinoma. The tumor suppressor gene, PTEN/MMAC1, is also located in this region, and, in addition to other tumor types (eg, glioblastoma multiforme, endometrial, and melanoma), PTEN/MMAC1 mutations have been found in prostate cancer cell lines, xenografts, and hormone refractory prostate cancer tissue specimens. The aim of this study was to evaluate LOH at 10q23.3 as a marker of cancer progression in node-positive prostate cancer. Genetic alterations in the region of 10q23.3 were assessed in 23 node-positive (pT2-3, N+) and 44 node-negative prostate (pT2-3, N0) cancers with D10S532, D10S1687, D10S541, and D10S583 flanking polymorphic genetic markers; PTENCA, a genetic marker within PTEN/MMAC1, was also tested. Using DNA from paired normal and microdissected tumor samples, LOH at microsatellite loci was determined after polymerase chain reaction amplification. LOH in at least 1 marker was identified in 14% (6 of 44) of lymph node-negative and 43% (10 of 23) of lymph node-positive prostate cancers (chi-square test, P = .007). This increase in genetic alterations in node-positive prostate cancer suggests that 10q23.3 is a marker for metastatic progression.     

PTEN gene loss, but not mutation, in benign and malignant phaeochromocytomas

Mutations of the 'phosphatase and tensin homologue deleted on chromosome 10' (PTEN/MMAC1) gene have been associated with a variety of human cancers, including prostate cancer, glioblastoma, and melanoma. The gene is thought to be one of the most frequently mutated tumour suppressor genes and inactivation of PTEN is associated with disease progression and angiogenesis. High vascularization and resistance to chemo- and radio-therapy are two well-established features of phaeochromocytomas (PCCs). Furthermore, benign and malignant PCCs are found in several PTEN knockout mouse models. This study therefore evaluated whether inactivation of PTEN may be involved in the tumourigenesis of PCC in man and whether PTEN abnormalities may help to define the malignant potential of these tumours. Tumour and germline DNA was analysed from 31 patients with apparently sporadic PCC, including 14 clinically benign and 17 malignant tumours, for loss of the PTEN gene locus, mutations in the PTEN gene, and for PTEN protein expression by immunohistochemistry. Loss of heterozygosity (LOH) analysis showed loss of PTEN in four malignant tumours (40%) and in one benign tumour (14%). However, no mutations of PTEN were observed. Immunohistochemistry showed no correlation with clinical behaviour and/or LOH status. The results indicate that inactivation of the PTEN/MMAC1 gene may play a minor role in the development of malignant phaeochromocytomas.     

PTEN/MMAC1/TEP1在肺癌中的丢失和失活

目的 了解抑制癌基因ＰＴＥＮ／ＭＭＡＣ１／ＴＥＰ１（以下简称ＰＴＥＮ）在肺癌中的缺失和失活。方法 选用２４例具有正常对照的肺癌新鲜标本,１８例小细胞肺癌石蜡切片,用聚合酶链反应及杂合性丢失分析法检测ＰＴＥＮ的杂合笥丢失;并采用原位杂交法、免疫组化化学染色法、Ｗｅｓｔｅｍ ｂｌｏｔ法观察肺癌标本中ＰＴＥＮ ｍＲＮＡ和蛋白水平的表达。对１株肺腺癌和３株小细胞肺癌系进行ＰＴＥＮ的Ｓｏｕｔｈｅｒｎ、Ｎｏｒ     

Allelic loss at 10q23.3 but lack of mutation of PTEN/MMAC1 in chromophobe renal cell carcinoma.

Chromophobe renal cell carcinoma (RCC) is characterized by loss of multiple chromosomes including chromosome 10. This study was undertaken to determine the LOH at the PTEN/MMAC1 locus (chromosome band 10q23.3) and to search for gene mutations in 15 chromophobe, 50 conventional, and 10 papillary RCCs as well as in 10 renal oncocytomas. Loss of heterozygosity (LOH) wa seen at all informative loci in all chromophobe RCCs and in two conventional RCCs. We did not find mutations by analyzing exon 1 to 9 of the PTEN/MMAC1 gene using the PCR-SSCP technique in tumors with LOH at 10q23.3.     

Differential nuclear and cytoplasmic expression of PTEN in normal thyroid tissue, and benign and malignant epithelial thyroid tumors

Germline mutations in PTEN (MMAC1/TEP1) are found in patients with Cowden syndrome, a familial cancer syndrome which is characterized by a high risk of breast and thyroid neoplasia. Although somatic intragenic PTEN mutations have rarely been found in benign and malignant sporadic thyroid tumors, loss of heterozygosity (LOH) has been reported in up to one fourth of follicular thyroid adenomas (FAs) and carcinomas. In this study, we examined PTEN expression in 139 sporadic nonmedullary thyroid tumors (55 FA, 27 follicular thyroid carcinomas, 35 papillary thyroid carcinomas, and 22 undifferentiated thyroid carcinomas) using immunohistochemistry and correlated this to the results of LOH studies. Normal follicular thyroid cells showed a strong to moderate nuclear or nuclear membrane signal although the cytoplasmic staining was less strong. In FAs the neoplastic nuclei had less intense PTEN staining, although the cytoplasmic PTEN-staining intensity did not differ significantly from that observed in normal follicular cells. In thyroid carcinomas as a group, nuclear PTEN immunostaining was mostly weak in comparison with normal thyroid follicular cells and FAs. The cytoplasmic staining was more intense than the nuclear staining in 35 to 49% of carcinomas, depending on the histological type. Among 81 informative tumors assessed for LOH, there seemed to be an associative trend between decreased nuclear and cytoplasmic staining and 10q23 LOH (P = 0.003, P = 0.008, respectively). These data support a role for PTEN in the pathogenesis of follicular thyroid tumors.     

Deletion mapping of 18q in conventional renal cell carcinoma

Loss of heterozygosity (LOH) is frequently associated with the inactivation of tumor suppressor genes. 18q LOH has been frequently reported in colorectal cancer and lung cancer; however, allelic loss on 18q has not been investigated in renal cell carcinoma (RCC). We evaluated LOH on 18q using nine microsatellite markers in 126 with conventional RCC (cRCC). LOH was observed in more than one 18q microsatellite locus in 24 cRCC (19%). We found the highest frequency of LOH (13.5%) at 18q21.3, where the DCC gene is located. We also assessed the relationship between LOH frequency and patient clinical parameters. Patients with a family history of cancer had a significantly higher frequency of 18q LOH than those without such a history (P=0.0017). No associations were found with other parameters, including gender, tumor grade, tumor stage, smoking status, and body mass index. The results suggest that inactivation of tumor suppressor genes at 18q21.3, including DCC and SMAD4 as candidates, may be involved in the tumorigenesis of some conventional RCCs.     

Frequent loss of PTEN expression is linked to elevated phosphorylated Akt levels, but not associated with p27 and cyclin D1 expression, in primary epithelial ovarian carcinomas

PTEN (MMAC1/TEP1), a tumor suppressor gene on chromosome subband 10q23.3, is variably mutated and/or deleted in a variety of human cancers. Germline mutations in PTEN, which encode a dual-specificity phosphatase, have been implicated in at least two hamartoma tumor syndromes that exhibit some clinical overlap, Cowden syndrome and Bannayan-Riley-Ruvalcaba syndrome. Among several series of ovarian cancers, the frequency of loss of heterozygosity (LOH) of markers flanking and within PTEN, is approximately 30 to 50%, and the somatic intragenic PTEN mutation frequency is <10%. In this study, we screened primary adenocarcinomas of the ovary for LOH of polymorphic markers within and flanking the PTEN gene and for intragenic mutations of the PTEN gene and compared them to PTEN expression using immunohistochemistry. Furthermore, we sought to detect the expression of the presumed downstream targets of PTEN, such as P-Akt, p27, and cyclin D1 by immunohistochemistry. LOH at 10q23 was observed in 29 of 64 (45%) cases. Of the 117 samples, 6 somatic intragenic PTEN mutations, 1 germline mutation, and 1 novel polymorphism were found in 7 (6%) patients. Immunostaining of 49 ovarian cancer samples revealed that 13 (27%) were PTEN immunostain-negative, 25 (51%) had reduced staining, and the rest (22%) were PTEN expression-positive. Among the 44 informative tumors assessed for 10q23 LOH and PTEN immunostaining, there was an association between 10q23 LOH and decreased or absent staining (P = 0.0317). Of note, there were five (11%) tumors with neither mutation nor deletion that exhibited no PTEN expression and 10 (25%) others without mutation or deletion but had decreased PTEN expression. Among the 49 tumors available for immunohistochemistry, 28 (57%) showed P-Akt-positive staining, 24 (49%) had decreased p27 staining, and cyclin D1 was overexpressed in 35 (79%) cases. In general, P-Akt expression was inversely correlated with PTEN expression (P = 0.0083). These data suggest that disruption of PTEN by several mechanisms, allelic loss, intragenic mutation, or epigenetic silencing, all contribute to epithelial ovarian carcinogenesis, and that epigenetic silencing is a significant mechanism. The Akt pathway is prominently involved, but clearly not in all cases. Surprisingly, despite in vitro demonstration that p27 and cyclin D1 lies downstream of PTEN and Akt, there was no correlation between p27 and cyclin D1 expression and PTEN or P-Akt status. Thus, in vivo, although PTEN and Akt play a prominent role in ovarian carcinogenesis, p27 and cyclin D1 might not be the primary downstream targets. Alternatively, these observations could also suggest that pathways involving other than Akt, p27 and cyclin D1 that lie downstream of PTEN play roles in ovarian carcinogenesis.     

Expression of fibronectin and HIF-1alpha in renal cell carcinomas: relationship to von Hippel-Lindau gene inactivation

The von Hippel-Lindau (VHL) tumor suppressor gene (TSG) at 3p25 is mutated in approximately 50% of conventional (clear cell) renal cell carcinomas (cRCC). VHL normally regulates the ubiquitin-mediated proteolysis of hypoxia-inducible factor 1alpha (HIF-1alpha), and VHL inactivation results in increased cellular HIF-1alpha expression. VHL protein (pVHL) also interacts with fibronectin (Fn) and VHL inactivation results in defective Fn extracellular matrix assembly. The present study investigated the immunohistochemical (IHC) staining for Fn and HIF-1alpha in 11 cRCC and the relationship of the staining to VHL inactivation by gene deletion, mutation, or hypermethylation. Evidence for VHL inactivation by 3p deletions and VHL mutations were found in six tumors. Fn-positive IHC staining of tumor cells and negative to weak staining of extracellular stroma was found in five cases having exon 1 or exon 2 mutations. In contrast, Fn staining was absent in tumor cells and positive in the stroma of five tumors without VHL inactivation and in one tumor with a C-terminal exon 3 mutation. HIF-1alpha tumor cell staining was present in the cRCC with VHL inactivation but was also present in two tumors having 3p deletions but neither mutation nor hypermethylation of VHL. These two cRCC showed a tumor cell-negative and stroma-positive pattern of Fn staining. The findings indicate that VHL inactivation plays a role in the development of some cRCC by altering Fn cell--stroma relationships. They also suggest that some C-terminal mutations may not interfere with Fn assembly and that a 3p TSG in addition to VHL influences HIF-1alpha degradation.     

Mutation analysis of the putative tumor suppressor gene<Emphasis Type="Italic"> PTEN/MMAC1</Emphasis> in advanced gastric carcinomas

A novel tumor suppressor gene, PTEN/MMAC1, located on chromosome band 10q23.3, encodes a 403-amino acid, dual-specificity protein phosphatase. The defects in this gene are responsible for the development of some advanced cancers. Inactivating alterations, including mutations and deletions, in the PTEN/MMAC1 gene have been identified in several types of human cancers and cancer cell lines. To clarify the participation of the PTEN/MMAC1 gene in advanced gastric carcinogenesis, we screened their frequency of mutations in primary advanced gastric adenocarcinoma tissues. Cancer specimens and their corresponding normal tissues were obtained surgically from 60 patients with pathologically proven advanced gastric carcinoma at the Department of Surgery of Kaohsiung Medical University Hospital. All nine exons of the PTEN/MMAC1 gene were amplified using polymerase chain reaction and screened for mutations by single-strand conformation polymorphism analysis and followed by direct sequencing. After neutral polyacrylamide gel electrophoresis, 17 patients (28.3%) showed an apparent electrophoretic mobility shift between the cancer and its paired normal tissue. These results from direct sequencing indicated that mutations consisted of eight cases (47.1%) of missense mutation, five silent mutations (29.4%), two nonsense mutations (11.8%), a 12-bp deletion (5.9%), and a mutation within the splice donor site of intron 6 (5.9%). The mutation hot spots at codons 45, 66, 82 and 204 in advanced gastric cancer have not been observed previously. Based on the present analysis, our study implicated that the mutations of the PTEN/MMAC1 gene do not occur at a significant rate in human advanced gastric carcinoma, but the rare clustered mutation site (exons 2-6) perhaps suggested that PTEN/MMAC1 might contribute to the gastric carcinogenesis and its progression.     

Promoter methylation and silencing of PTEN in gastric carcinoma

The PTEN/MMAC1/TEP1 gene (phosphatase and tensin homolog deleted on chromosome 10/mutated in multiple advanced cancers/TGF-beta regulated and epithelial cell enriched phosphatase 1), which regulates the signaling pathways of Akt, is a novel tumor suppressor gene implicated in multiple cancers. Because a number of tumor suppressor genes are known to be silenced by aberrant promoter methylation, we examined the methylation status of the 5' CpG islands of PTEN using methylation-specific PCR. The altered expression of PTEN in 310 gastric carcinomas was analyzed by immunohistochemical staining using tissue-array and clinicopathologic profiles related to PTEN expression were characterized. Of 310 consecutive gastric carcinomas, 62 cases (20%) showed expression loss of PTEN. Altered PTEN expression was significantly associated with tumor depth and size, lymphatic invasion, advanced stage, pTNM stage, and patient survival (p < 0.001). The promoter methylation frequency of PTEN was found to be present in 26 (39%) of 66 cases examined, and 19 (73%) of 26 gastric cancer tissues showing promoter methylation exhibited the loss of PTEN expression. Abnormalities in the expression of PTEN significantly correlated with promoter methylation (p < 0.001). In conclusion, silencing of the PTEN gene occurs frequently in gastric carcinoma and aberrant promoter methylation is a major mechanism of silencing of the PTEN gene. The abnormalities of the PTEN gene are associated with tumor progression, metastasis, and survival.     

Analysis of PTEN/MMAC1 alteration in neuroblastoma

Neuroblastoma is the most common extracranial solid tumor in children. Although it has been reported that loss of heterozygosity at various loci, including 10q, frequently occurs in neuroblastoma, a bona fide tumor suppressor gene has not been identified. Recently, a gene mapped to chromosome 10q23, PTEN/MMAC1, was identified as a tumor suppressor gene that inhibits cell survival and cell proliferation by catalyzing the dephosphorylation of phosphatidylinositol 3,4,5-triphosphate. To screen for mutations of this gene in neuroblastoma, we analyzed 11 primary neuroblastoma tumors and 16 neuroblastoma cell lines for PTEN/MMAC1 mutations and deletions. All nine exons of the PTEN/MMAC1 gene were examined using the polymerase chain reaction-single strand conformational polymorphism assay and sequencing. Only one of the cell lines showed a mutation, a 1-bp frameshift deletion in exon 7, and an allelic loss in the opposite allele was revealed by a microsatellite analysis. Our results indicate that the disruption of the PTEN/MMAC1 gene is not a frequent event in neuroblastoma, and suggest that this disruption may be responsible for malignant progression in only a limited proportion of cases of neuroblastoma.     

PTEN expression in non-small-cell lung cancer: evaluating its relation to tumor characteristics, allelic loss, and epigenetic alteration

The tumor suppressor PTEN encodes a lipid phosphatase that negatively regulates the phosphatidylinositol 3-kinase/AKT cell survival pathway. Mutations of this gene are common in brain, prostate, endometrial, and gastric cancers but occur rarely in non-small-cell lung cancer (NSCLC), although the PTEN protein is often lost in lung tumors. We have studied hypermethylation of the PTEN promoter, loss of heterozygosity (LOH) at microsatellites in chromosome 10q23 (surrounding and intragenic to the PTEN locus), and hypermethylation of PTEN's highly homologous pseudogene, PTENP1, and their association with PTEN protein loss in a surgical case series study of primary NSCLC. PTEN protein expression was reduced or lost in 74% (86/117) of tumors, with loss occurring more often in well to moderately differentiated tumors. In squamous cell carcinomas, PTEN loss occurred significantly more often in early-stage (stage I or II) disease. PTEN protein loss also occurred more frequently in tumors with low to no aberrant TP53 staining. Methylation of PTEN occurred in 26% (39/151) of tumors, and LOH at 10q23 was rare, occurring in only 19% (17/90) of informative tumors. Neither methylation nor LOH was a significant predictor of PTEN protein expression, although LOH occurred exclusively in early-stage disease. In NSCLC, loss of PTEN protein expression occurs frequently, although the mechanism responsible for loss is not clearly attributable to deletion or epigenetic silencing. PTEN loss may also be a favorable prognostic marker, although further studies are needed to confirm this finding.     

散发性肾癌中VHL基因的两个单核苷酸多态位点分析和杂合性缺失检测

目的检测79例散发性肾癌中抑癌基因VHL内部的两个单核苷酶多态(single nucleotide polymorphism，SNP)位点并分析杂合性缺失(loss of heterozygosity，LOH)发生情况，探讨VHL基因LOH与肾癌临床病理特征的关系。方法从肿瘤和正常肾组织中提取DNA，应用聚合酶链反应-限制性片段长度多态性方法检测VHL基因5′端SNP位点rs779805和3′端SNP位点rs1642742的基因型。在两个位点的杂合子中进行LOH检测，并分析VHL基因LOH与临床病理特征的关系。结果我们计算了两个位点的基因型、基因频率、杂合度、多态信息含量等遗传学参数。综合两个位点发现杂合子29例．其中12例(41．4％)存在LOH。VHL基因LOH与肾癌发生年龄、性别、临床分期、病理分级无显著相关性。结论在散发性肾癌中，VHL基因LOH是肿瘤发生的重要机理，其发生率达41．4％，VHL基因LOH与肾癌分期、分级无关。     

Comprehensive mutational analysis of the VHL gene in sporadic renal cell carcinoma: relationship to clinicopathological parameters

To delineate more precisely the somatic von Hippel-Lindau disease (VHL) gene alteration as well as to elucidate its etiologic role in renal tumorigenesis, we examined a total of 240 sporadic renal cell carcinomas (RCCs) for somatic VHL gene alterations by DNA-SSCP followed by sequencing, methylation-specific PCR assay, microsatellite LOH study, and Southern blot analysis. Intragenic mutation of the VHL gene was found exclusively in clear-cell or variant-type RCCs at a frequency of 51% (104/202). Hypermethylation of the VHL promoter region was detected in an additional 11 clear-cell RCCs. Microsatellite analysis demonstrated that LOH of the VHL locus was found in 140/155 (90%) informative clear-cell RCCs. The VHL gene therefore seems to be inactivated in a two-hit manner by intragenic mutation or hypermethylation plus allelic loss in clear-cell RCC. Genomic rearrangement of the VHL gene detected by Southern analysis was not found (0/216 cases); this is in contrast to germ lines in which Southern aberrations consisted of 7-19% of the mutations. Clinicopathologic data demonstrated that VHL mutation/LOH did not vary according to tumor progression in clear-cell RCC, including tumor diameter, stage, grading, distant metastasis, and lymph node metastasis. Interestingly, VHL mutation was significantly less frequent in RCCs occurring in younger (< or = 55 years) than that in older (> or = 56 years) patients. These data suggested that the inactivation of the VHL tumor-suppressor gene is a specific genetic change in clear-cell RCC, and that it may occur at an early or first step in the clear-cell tumorigenic pathway rather than as a late event.     

肾细胞癌中抑癌基因PTEN的表达及生物学意义

目的 :研究抑癌基因PTEN在肾细胞癌的表达及其生物学意义。方法 :应用免疫组织化学S P法检测 5例正常肾组织、18例癌旁肾组织和 40例肾细胞癌组织中抑癌基因PTEN的表达。结果 :5例正常肾组织和 18例癌旁肾组织均有较强的PTEN蛋白的表达 ,二者PTEN蛋白的表达强度、阳性细胞的分布形式无差异。抑癌基因PTEN在肾细胞癌中的表达不同于正常肾组织和癌旁肾组织 ,12 5 %的肾细胞癌呈PTEN蛋白阴性 ;17 5 %的肾细胞癌PTEN蛋白呈弱阳性 ;70 %的肾细胞癌PTEN蛋白呈阳性或强阳性 ,与癌旁组织PTEN蛋白的染色强度无差异。PTEN蛋白阴性的肾细胞癌 ,肾门淋巴结转移率为80 % ;PTEN蛋白阳性的肾细胞癌 ,肾门淋巴结转移率为 2 0 %。PTEN蛋白阴性肾细胞癌的肾门淋巴结转移率与PTEN阳性肾细胞癌的肾门淋巴结转移率比较 ,差异有显著性 (P <0 0 5 )。结论 :肾细胞癌中存在着抑癌基因PTEN的表达缺失和异常 ;抑癌基因PTEN的表达异常可能与肾细胞癌的发生、发展有关 ,抑癌基因PTEN是肾细胞癌的一种新的相关基因。     

Biallelic inactivating mutations and an occult germline mutation of PTEN in primary cervical carcinomas

A tumor suppressor gene on chromosome sub-band 10q23.3, PTEN, is frequently mutated or deleted in a variety of human cancers. Germline mutations in PTEN, that encodes a dual-specificity phosphatase, have been implicated in two hamartoma-tumor syndromes that exhibit some clinical overlap, Cowden syndrome and Bannayan-Zonana syndrome. Although cervical cancer is not a known component of these two syndromes, loss of heterozygosity (LOH) of markers on chromosome arm 10q is frequently observed in cervical cancers. To determine the potential role that PTEN mutation may play in cervical tumorigenesis, we screened 20 primary cervical cancers for LOH of polymorphic markers within and flanking the PTEN gene, and for intragenic mutations in the entire coding region and exon-intron boundaries of the PTEN gene. LOH was observed in 7 of 19 (36.8%) cases. Further, one sample may have homozygous deletion. Three (15%) intragenic mutations were found: two were somatic missense mutations in exon 5, that encodes the phosphatase motif, and an occult germline intronic sequence variant in intron 7, that we show to be associated with aberrant splicing. All three samples with the mutations also had LOH of the wild-type allele. These data indicate that disruption of PTEN by allelic loss or mutation may contribute to tumorigenesis in cervical cancers. In cervical cancer, unlike some other human primary carcinomas, e.g., those of the breast and thyroid, biallelic structural PTEN defects seem necessary for carcinogenesis. Further, one in 20 unselected cervical carcinomas was found to have a germline PTEN mutation; it is unclear whether the patient with this mutation had Cowden disease or a related syndrome.     

PTEN/MMAC1 in malignant melanoma and its importance for tumor progression

A novel tumor suppressor gene, PTEN/MMAC1, on 10q23, displayed a number of mutations in solid tumors as gliomas and breast cancer. Aberrations of the long arm of chromosome 10 have been frequently detected in tumor progression of malignant melanoma of the skin by a variety of methods including cytogenetic analysis, fluorescence in situ hybridization and loss of heterozygosity analysis. Compared to previous studies, which propose an involvement of PTEN/MMAC1 in malignant melanoma mostly on the basis of data derived from cell lines and metastases, we analyzed a broader spectrum of exclusively patient derived tumor tissue by PCR and direct sequencing analysis of PTEN/MMAC1. Here, we present data of 25 primary melanomas (8 superficial spreading melanomas, 17 nodular melanomas) and 25 metastases of 41 patients. Neither loss of the complete gene nor a whole exon nor any nonsense mutations could be demonstrated. However, we detected several polymorphisms and some mutations in the introns, and in two metastatic tumors mutations with an amino acid change. Our results obtained from tissue samples underline that mutations of PTEN/MMAC1 are not an essential event in the onset of malignant melanoma of the skin, but could have an impact on tumor progression.