Your search keyword '"Jeffrey P MacKeigan"' showing total 2 results

1. Spectrum of germline and somatic mitochondrial DNA variants in Tuberous Sclerosis Complex

Author

Krinio Giannikou, Katie R. Martin, Ahmad G. Abdel-Azim, Kaila J. Pamir, Thomas R. Hougard, Shefali Bagwe, Yan Tang, Jeffrey P. MacKeigan, David J. Kwiatkowski, Elizabeth P. Henske, and Hilaire C. Lam

Subjects

mTORC1, buccal swab, angiomyolipoma, lymphangioleiomyomatosis, renal cell carcinoma, Genetics, QH426-470

Abstract

Tuberous Sclerosis Complex (TSC) is caused by loss of function variants in either TSC1 or TSC2 and is characterized by broad phenotypic heterogeneity. Currently, there is limited knowledge regarding the role of the mitochondrial genome (mtDNA) in TSC pathogenesis. In this study, we aimed to determine the prevalence and spectrum of germline and somatic mtDNA variants in TSC and identify potential disease modifiers. Analysis of mtDNA amplicon massively parallel sequencing (aMPS) data, off-target mtDNA from whole-exome sequencing (WES), and/or qPCR, revealed mtDNA alterations in 270 diverse tissues (139 TSC-associated tumors and 131 normal tissue samples) from 199 patients and six healthy individuals. Correlation of clinical features to mtDNA variants and haplogroup analysis was done in 102 buccal swabs (age: 20–71 years). No correlation was found between clinical features and either mtDNA variants or haplogroups. No pathogenic variants were identified in the buccal swab samples. Using in silico analysis, we identified three predicted pathogenic variants in tumor samples: MT-ND4 (m.11742G>A, p. Cys328Tyr, VAF: 43%, kidney angiomyolipoma), MT-CYB (m.14775T>C, p. Leu10Pro, VAF: 43%, LAM abdominal tumor) and MT-CYB (m.15555C>T, p. Pro270Leu, VAF: 7%, renal cell carcinoma). Large deletions of the mitochondrial genome were not detected. Analysis of tumors from 23 patients with corresponding normal tissue did not reveal any recurrent tumor-associated somatic variants. The mtDNA/gDNA ratio between tumors and corresponding normal tissue was also unchanged. Overall, our findings demonstrate that the mitochondrial genome is highly stable across tissues and within TSC-associated tumors.

Published

2023

2. Chemical Biology Screening Identifies a Vulnerability to Checkpoint Kinase Inhibitors in TSC2-Deficient Renal Angiomyolipomas

Author

Robert M. Vaughan, Jennifer J. Kordich, Chun-Yuan Chan, Nanda K. Sasi, Stephanie L. Celano, Kellie A. Sisson, Megan Van Baren, Matthew G. Kortus, Dean J. Aguiar, Katie R. Martin, and Jeffrey P. MacKeigan

Subjects

Chk1/2, CHEK1/2, TSC2, tuberous sclerosis complex, mTOR, checkpoint kinase inhibitors, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

The tuberous sclerosis complex (TSC) is a rare genetic syndrome and multisystem disease resulting in tumor formation in major organs. A molecular hallmark of TSC is a dysregulation of the mammalian target of rapamycin (mTOR) through loss-of-function mutations in either tumor suppressor TSC1 or TSC2. Here, we sought to identify drug vulnerabilities conferred by TSC2 tumor-suppressor loss through cell-based chemical biology screening. Our small-molecule chemical screens reveal a sensitivity to inhibitors of checkpoint kinase 1/2 (CHK1/2), regulators of cell cycle, and DNA damage response, in both in vitro and in vivo models of TSC2-deficient renal angiomyolipoma (RA) tumors. Further, we performed transcriptional profiling on TSC2-deficient RA cell models and discovered that these recapitulate some of the features from TSC patient kidney tumors compared to normal kidneys. Taken together, our study provides a connection between mTOR-dependent tumor growth and CHK1/2, highlighting the importance of CHK1/2 inhibition as a potential antitumor strategy in TSC2-deficient tumors.

Published

2022