Molecular profiles of high-grade and low-grade pseudomyxoma peritonei
Abstract:
Pseudomyxoma peritonei (PMP) is a rare disease exhibiting a distinct clinical feature caused by cancerous cells that produce mucinous fluid in the abdominal cavity. PMPs originate most frequently from the appendix and less frequently from the ovary. This disease can range from benign to malignant, and histologically, PMP is classified into two types: disseminated peritoneal adenomucinosis (DPAM) representing the milder phenotype, and peritoneal mucinous adenocarcinomas (PMCA) representing the aggressive phenotype. Although histological classification is clinically useful, the pathogenesis of PMP remains largely unknown. To elucidate the molecular mechanisms underlying PMP, we analyzed 18 PMP tumors comprising 10 DPAMs and 8 PMCAs. DNA was extracted from tumor and matched non-tumorous tissues, and was sequenced using Ion AmpliSeq Cancer Panel containing 50 cancer-related genes. Analysis of the data identified a total of 35 somatic mutations in 10 genes, and all mutations were judged as pathological mutations. Mutations were frequently identified in KRAS (14/18) andGNAS (8/18). Interestingly, TP53 mutations were found in three of the eight PMCAs, but not in the DPAMs. PIK3CA and AKT1 mutations were also identified in two PMCAs, but not in the DPAMs. These results suggested that KRAS and/or GNAS mutations are common genetic features of PMP, and that mutations in TP53 and/or genes related to the PI3K-AKT pathway may render malignant properties to PMP. These findings may be useful for the understanding of tumor characteristics, and facilitate the development of therapeutic strategies.
Keywords:
DPAM ; mutation; PMCA ; pseudomyxoma peritonei; TP53
Autoři:
Rei Noguchi 1; Hideaki Yano 2; Yoshimasa Gohda 2; Ryuichiro Suda 2; Toru Igari 3; Yasunori Ohta 4; Naohide Yamashita 5; Kiyoshi Yamaguchi 1; Yumi Terakado 1; Tsuneo Ikenoue 1; Yoichi Furukawa 1
Působiště autorů:
Division of Clinical Genome Research, The Institute of Medical Science, The University of Tokyo, Tokyo, Japan
1; Department of Surgery, National Center for Global Health and Medicine, Tokyo, Japan
2; Pathology Division of Clinical Laboratory, National Center for Global Health and Medicine, Tokyo, Japan
3; Department of Pathology, Research Hospital, The Institute of Medical Science, The University of Tokyo, Tokyo, Japan
4; Department of Advanced Medical Science, Research Hospital, The Institute of Medical Science, The University of Tokyo, Tokyo, Japan
5
Vyšlo v časopise:
Cancer Medicine 2015; Early View(Early View)
Kategorie:
Original Research
prolekare.web.journal.doi_sk:
https://doi.org/10.1002/cam4.542
© 2015 The Authors. Cancer Medicine published by John Wiley & Sons Ltd.
This is an open access article under the terms of the Creative Commons Attribution License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.
© 2015 The Authors. Cancer Medicine published by John Wiley & Sons Ltd.
Souhrn
Abstract:
Pseudomyxoma peritonei (PMP) is a rare disease exhibiting a distinct clinical feature caused by cancerous cells that produce mucinous fluid in the abdominal cavity. PMPs originate most frequently from the appendix and less frequently from the ovary. This disease can range from benign to malignant, and histologically, PMP is classified into two types: disseminated peritoneal adenomucinosis (DPAM) representing the milder phenotype, and peritoneal mucinous adenocarcinomas (PMCA) representing the aggressive phenotype. Although histological classification is clinically useful, the pathogenesis of PMP remains largely unknown. To elucidate the molecular mechanisms underlying PMP, we analyzed 18 PMP tumors comprising 10 DPAMs and 8 PMCAs. DNA was extracted from tumor and matched non-tumorous tissues, and was sequenced using Ion AmpliSeq Cancer Panel containing 50 cancer-related genes. Analysis of the data identified a total of 35 somatic mutations in 10 genes, and all mutations were judged as pathological mutations. Mutations were frequently identified in KRAS (14/18) andGNAS (8/18). Interestingly, TP53 mutations were found in three of the eight PMCAs, but not in the DPAMs. PIK3CA and AKT1 mutations were also identified in two PMCAs, but not in the DPAMs. These results suggested that KRAS and/or GNAS mutations are common genetic features of PMP, and that mutations in TP53 and/or genes related to the PI3K-AKT pathway may render malignant properties to PMP. These findings may be useful for the understanding of tumor characteristics, and facilitate the development of therapeutic strategies.
Keywords:
DPAM ; mutation; PMCA ; pseudomyxoma peritonei; TP53
Zdroje
1. Prayson, R. A., W. R. Hart, and R. E. Petras. 1994. Pseudomyxoma peritonei. A clinicopathologic study of 19 cases with emphasis on site of origin and nature of associated ovarian tumors. Am. J. Surg. Pathol.18:591–603.
2. Smeenk, R. M., M. L. van Velthuysen, V. J. Verwaal, and F. A. Zoetmulder. 2008. Appendiceal neoplasms and pseudomyxoma peritonei: a population based study. Eur. J. Surg. Oncol. 34:196–201.
3. Misdraji, J., R. K. Yantiss, F. M. Graeme-Cook, U. J. Balis, and R. H. Young. 2003. Appendiceal mucinous neoplasms: a clinicopathologic analysis of 107 cases. Am. J. Surg. Pathol. 27:1089–1103.
4. Bradley, R. F., J. Ht. Stewart, G. B. Russell, E. A. Levine, and K. R. Geisinger. 2006. Pseudomyxoma peritonei of appendiceal origin: a clinicopathologic analysis of 101 patients uniformly treated at a single institution, with literature review. Am. J. Surg. Pathol. 30:551–559.
5. Jacquet, P., and P. H. Sugarbaker. 1996. Current methodologies for clinical assessment of patients with peritoneal carcinomatosis. J. Exp. Clin. Canc. Res. 15:49–58.
6. Vartiainen, J., H. Lassus, P. Lehtovirta, P. Finne, H. Alfthan, R. Butzow, et al. 2008. Combination of serum hCG beta and p53 tissue expression defines distinct subgroups of serous ovarian carcinoma. Int. J. Cancer122:2125–2129.
7. Nummela, P., L. Saarinen, A. Thiel, P. Jarvinen, R. Lehtonen, A. Lepisto, et al. 2015. Genomic profile of pseudomyxoma peritonei analyzed using next-generation sequencing and immunohistochemistry. Int. J. Cancer 136:E282–E289.
8. Shetty, S., P. Thomas, B. Ramanan, P. Sharma, V. Govindarajan, and B. Loggie. 2013. Kras mutations and p53 overexpression in pseudomyxoma peritonei: association with phenotype and prognosis. J. Surg. Res.180:97–103.
9. Nishikawa, G., S. Sekine, R. Ogawa, A. Matsubara, T. Mori, H. Taniguchi, et al. 2013. Frequent GNAS mutations in low-grade appendiceal mucinous neoplasms. Br. J. Cancer 108:951–958.
10. Sio, T. T., A. S. Mansfield, T. E. Grotz, R. P. Graham, J. R. Molina, F. G. Que, et al. 2014. Concurrent MCL1 and JUN amplification in pseudomyxoma peritonei: a comprehensive genetic profiling and survival analysis. J. Hum. Genet. 59:124–128.
11. Liu, X., K. Mody, F. B. de Abreu, J. M. Pipas, J. D. Peterson, T. L. Gallagher, et al. 2014. Molecular profiling of appendiceal epithelial tumors using massively parallel sequencing to identify somatic mutations. Clin. Chem.60:1004–1011.
12. Furukawa, T., Y. Kuboki, E. Tanji, S. Yoshida, T. Hatori, M. Yamamoto, et al. 2011. Whole-exome sequencing uncovers frequent GNAS mutations in intraductal papillary mucinous neoplasms of the pancreas. Sci. Rep.1:161.
13. Samuels, Y., Z. Wang, A. Bardelli, N. Silliman, J. Ptak, S. Szabo, et al. 2004. High frequency of mutations of the PIK3CA gene in human cancers. Science 304:554.
14. Velho, S., C. Oliveira, A. Ferreira, A. C. Ferreira, G. Suriano, S. Schwartz Jr, et al. 2005. The prevalence of PIK3CA mutations in gastric and colon cancer. Eur. J. Cancer 41:1649–1654.
15. Corless, C. L. 2014. Gastrointestinal stromal tumors: what do we know now? Mod. Pathol.27(Suppl 1):S1–S16.
16. Corless, C. L., A. Schroeder, D. Griffith, A. Town, L. McGreevey, P. Harrell, et al. 2005. PDGFRA mutations in gastrointestinal stromal tumors: frequency, spectrum and in vitro sensitivity to imatinib. J. Clin. Oncol.23:5357–5364.
17. Hirota, S., A. Ohashi, T. Nishida, K. Isozaki, K. Kinoshita, Y. Shinomura, et al. 2003. Gain-of-function mutations of platelet-derived growth factor receptor α gene in gastrointestinal stromal tumors.Gastroenterology 125:660–667.
18. Shetty, S., B. Natarajan, P. Thomas, V. Govindarajan, P. Sharma, and B. Loggie. 2013. Proposed classification of pseudomyxoma peritonei: influence of signet ring cells on survival. Am. Surg. 79:1171–1176.
19. Davison, J. M., H. A. Choudry, J. F. Pingpank, S. A. Ahrendt, M. P. Holtzman, A. H. Zureikat, et al. 2014.Clinicopathologic and molecular analysis of disseminated appendiceal mucinous neoplasms: identification of factors predicting survival and proposed criteria for a three-tiered assessment of tumor grade. Mod. Pathol. 27:1521–1539.
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OnkológiaČlánok vyšiel v časopise
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