A Case Study on PPM1D and 9 Other Shared Germline Alterations in a Family.

BACKGROUND: The use of high-throughput genotyping techniques has enabled us to identify the rare germline genetic variants with different pathogenicity and penetrance, and understand their role in cancer predisposition. We report here a familial cancer case, a study from Western Indian. METHODS: NGS-WES was carried out in a lung cancer patient who has a family history of multiple cancers across generations, including tongue, lung, brain, cervical, urothelial, and esophageal cancer. The results were validated by data mining from available data bases. I-TASSER, RasMol and PyMol were used for protein structure modelling. RESULTS: The sequencing by NGS-WES revealed PPM1D c.1654C>T (p.Arg552Ter) mutation in hotspot region exon 6 leading to sudden protein truncation and loss of the C-terminal, due to the substitution of C>T. This mutation was classified as a variant of uncertain significance (VUS), due to limited data on lung cancer, The three unaffected siblings of proband did not show any pathogenic variants and comparative analysis of the four siblings indicate 9 shared genetic variants, classified as benign as per ClinVar. CONCLUSION: PPM1D constitutional genetic alterations are rare and uncommon in different ethnic populations. This gene encodes a phosphatase playing role in regulating the P53 tumor suppressor pathway and DNA damage response. Genetic alterations in the PPM1D gene maybe linked to history of gliomas, breast cancer, and ovarian cancer onset in the proband's family.
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The Mystery of Cancer Resistance: A Revelation Within Nature.

Cancer, a disease due to uncontrolled cell proliferation is as ancient as multicellular organisms. A 255-million-years-old fossilized forerunner mammal gorgonopsian is probably the oldest evidence of cancer, to date. Cancer seems to have evolved by adapting to the microenvironment occupied by immune sentinel, modulating the cellular behavior from cytotoxic to regulatory, acquiring resistance to chemotherapy and surviving hypoxia. The interaction of genes with environmental carcinogens is central to cancer onset, seen as a spectrum of cancer susceptibility among human population. Cancer occurs in life forms other than human also, although their exposure to environmental carcinogens can be different. Role of genetic etiology in cancer in multiple species can be interesting with regard to not only cancer susceptibility, but also genetic conservation and adaptation in speciation. The widely used model organisms for cancer research are mouse and rat which are short-lived and reproduce rapidly. Research in these cancer prone animal models has been valuable as these have led to cancer therapy. However, another rewarding area of cancer research can be the cancer-resistant animal species. The Peto's paradox and G-value paradox are evident when natural cancer resistance is observed in large mammals, like elephant and whale, small rodents viz. Naked Mole Rat and Blind Mole Rat, and Bat. The cancer resistance remains to be explored in other small or large and long-living animals like giraffe, camel, rhinoceros, water buffalo, Indian bison, Shire horse, polar bear, manatee, elephant seal, walrus, hippopotamus, turtle and tortoise, sloth, and squirrel. Indeed, understanding the molecular mechanisms of avoiding neoplastic transformation across various life forms can be potentially having translational value for human cancer management. Adapted and Modified from (Hanahan and Weinberg 2011).