Kevin A. Nguyen scite author profile

A significant proportion of prostate cancer diagnoses may be associated with a strong hereditary component. Men who have multiple single-gene polymorphisms and a family history of prostate cancer have a significantly greater risk of developing prostate cancer. Numerous single-gene alterations have been confirmed to increase the risk of prostate cancer. These include breast cancer genes 1 and 2 (BRCA1 and BRCA2, respectively), mutL homolog 1 (MLH1), mutS homologs 2 and 6 (MSH2 and MSH6, respectively), postmeiotic segregation increased 2 (PMS2), homeobox B13 (HOXB13), checkpoint kinase 2 (CHEK2), nibrin (NBN), BRCA1-interacting protein C-terminal helicase 1 (BRIP1), and ataxia telangiectasia mutated (ATM). Currently, there are no uniform guidelines on the definition of hereditary prostate cancer and genetic testing. With the advent of next-generation sequencing, which is capable of testing multiple genes simultaneously, and the approval of olaparib for BRCA1/BRCA2 or ATM-mutated, metastatic, castrate-resistant prostate cancer, it is being recognized that the results of genetic testing have an impact on therapeutic strategies. In this review, the authors examine the role of genetic counseling and testing, the challenges of insurance coverage for testing, the available germline and somatic testing panels, and the complexity of each testing method and its implications. Cancer 2018. © 2018 American Cancer Society.

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Enhancement of BLM-DNA2-Mediated Long-Range DNA End Resection by CtIP

Daley

Jiménez-Sáinz

Wang

et al. 2017

Cell Reports

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Summary DNA double-strand break repair by homologous recombination entails the resection of DNA ends to reveal ssDNA tails, which are used to invade a homologous DNA template. CtIP and its yeast ortholog Sae2 regulate the nuclease activity of MRE11 in the initial stage of resection. Deletion of CtIP in the mouse or SAE2 in yeast engenders a more severe phenotype than MRE11 nuclease inactivation, indicative of a broader role of CtIP/Sae2. Here, we provide biochemical evidence that CtIP promotes long-range resection via the BLM-DNA2 pathway. Specifically, CtIP interacts with BLM and enhances its helicase activity, and it also enhances DNA cleavage by DNA2. Thus, CtIP influences multiple aspects of end resection beyond MRE11 regulation.

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Live birth after the transfer of human embryos developed from cryopreserved oocytes harvested before cancer treatment

Yang

Brown

Nguyen

et al. 2007

Fertility and Sterility

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Role of Core Number and Location in Targeted Magnetic Resonance Imaging-Ultrasound Fusion Prostate Biopsy

Syed

Ghabili

et al. 2019

European Urology

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Brain Metastasis From Renal-Cell Carcinoma: An Institutional Study

Suarez‐Sarmiento

Nguyen

Syed

et al. 2019

Clinical Genitourinary Cancer

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Racial disparity in mycosis fungoides: An analysis of 4495 cases from the US National Cancer Database

Nguyen

Bai

et al. 2017

Journal of the American Academy of Dermatology

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Advances in the diagnosis of hereditary kidney cancer: Initial results of a multigene panel test

Nguyen

Syed

Espenschied

et al. 2017

Cancer

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Oocyte cryopreservation/a three year follow up of sixteen births.

Winslow

Yang

Blohm

et al. 2001

Fertility and Sterility

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Kevin A. Nguyen

Genetic testing for hereditary prostate cancer: Current status and limitations

Enhancement of BLM-DNA2-Mediated Long-Range DNA End Resection by CtIP

Live birth after the transfer of human embryos developed from cryopreserved oocytes harvested before cancer treatment

Role of Core Number and Location in Targeted Magnetic Resonance Imaging-Ultrasound Fusion Prostate Biopsy

Brain Metastasis From Renal-Cell Carcinoma: An Institutional Study

Racial disparity in mycosis fungoides: An analysis of 4495 cases from the US National Cancer Database

Advances in the diagnosis of hereditary kidney cancer: Initial results of a multigene panel test

Oocyte cryopreservation/a three year follow up of sixteen births.

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