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Arjumand Ghazi, PhD
- Associate Professor of Pediatrics
Arjumand Ghazi trained as a developmental biologist, completing her graduate studies in fly muscle development at the National Center for Biological Sciences, Tata Institute for Fundamental Research, India, and post-doctoral research in Cynthia Kenyon’s laboratory at the University of California, San Francisco (UCSF) on the genetics of aging in C. elegans. As a postdoc, she demonstrated that the proteasomal pathway of protein degradation regulates lifespan and identified genes and pathways that influence longevity based on signals from the reproductive system. She leads a research group that studies the molecular genetic pathways that link length of life (lifespan) with reproductive fitness, quality of aging (healthspan) and stress resistance mechanisms. Research from the Ghazi lab has shown that lifespan-promoting transcription factors coordinate fat production and breakdown to enhance longevity. Recently, the lab has discovered a novel role for one such factor, TCER-1, in having opposite impacts on lifespan and healthspan, and in repressing immune-resistance to divert cellular resources towards fertility.
She is committed to, and active in, graduate education and mentoring. She is the Associate Director of the Molecular Genetics and Developmental Biology (MGDB) graduate program, and a member of the Cell Biology and Molecular Physiology (CBMP) and Integrated Systems Biology (ISB) graduate programs. She is also an Associate Member of the University of Pittsburgh’s Aging Institute and Magee Women’s Research Institute, and has faculty appointments in the Departments of Developmental Biology and Cell Biology and Physiology.
Professional and Scientific Society Memberships
- Genetic Society of America, 2011-Present
- Society for Developmental Biology, 2011-Present
- Gerontological Society of America, 2018-Present
Education & Training
- BS, Microbiology, Chemistry, and Zoology, St. Ann's College-Osmania University (India), 1993
- MS, Biotechnology, Hyderabad Central University, 1995
- PhD, Developmental Biology and Molecular Genetics, National Centre for Biological Sciences-Tata Institute for Fundamental Research (India), 2001
Selected Publications
Amrit FRG, Steenkiste E, Ratnappan R, Chen SW, Kostka, D, McClendon B, Yanowitz J, Olsen CP and Ghazi A*. DAF-16 and TCER-1 facilitate adaptation to germline loss by restoring lipid homeostasis and repressing reproductive physiology in C. elegans. PLoS Genet. (2016). 10(12):e1005788. doi: 10.1371/journal.pgen.1005788. PMID: 26862916
Keith SA, Maddux S, Zhong Y, Ferguson AA, Ghazi A and Alfred L. Fisher Graded proteasome dysfunction in C. elegansactivates an adaptive response involving the conserved SKN-1 and ELT-2 transcription factors and the autophagy-lysosome pathway. PLoS Genet. (2016). 12(2):e1005823. doi: 10.1371/journal.pgen.1005823. PMID: 26828939.
McClendon TB, Rana M, Amrit FR, Fukushige T, Krause M, Ghazi A, Yanowitz JL*. X chromosome crossoverformation and genome stability in Caenorhabditis elegans are independently regulated by xnd-1. G3: Genes, Genomes, Genetics. (2016). pii: g3.116.035725. doi: 10.1534/g3.116.035725. PMID: 27678523
Ratnappan R, Ward, JD, Yamamoto, KR and Ghazi A*. Nuclear hormone receptors as mediators of metabolic adaptability in response to reproductive perturbations. Worm (2016). 5(1): 1–12. http://dx.doi.org/10.1080/21624054.2016.1151609. PMID: 27073739
King CD, Singh D, Holden K, Govan AB, Keith SA, Ghazi A* and Robinson RASR*. Dataset of proteomics analysis of aging C. elegans exposed to Pseudomonas aeruginosa. Data in Brief (2017). 245-251. http://dx.doi.org/10.1016/j.dib.2017.02.001
Amrit FRG and Ghazi A*. Analysis of C. elegans transcriptomic data by the Tuxedo suite of the Galaxy pipeline. Journal of Visual Experimentation (JoVE) (2017). Apr 8;(122). doi: 10.3791/55473. PMID: 28448031
King CD, Singh D, Holden K, Govan AB, Keith SA, Ghazi A* and Robinson RASR*. Proteomic Identification of Virulence-Related Factors in Young and aging C. elegans exposed to Pseudomonas aeruginosa. Journal of Proteomics (2018). 2018 Apr 12. pii: S1874-3919(18)30165-9. doi: 10.1016/j.jprot.2018.04.006. PMID: 29656019
Amrit FRG, Naim N, Ratnappan R, Loose, JA, Mason C, Steenberge L, McClendon TB, Wang G, Driscoll M, Yanowitz JL and Ghazi A*. The longevity-promoting factor, TCER-1, widely represses stress resistance and innate immunity. Nature Communications (2019). 10, 3042. DOI https://doi.org/10.1038/s41467-019-10759-z. PMID: 31316054.
Schiffer, J, Servello, F, Heath, W, Amrit, FRG, Stumbur, S, Eder, M, Martin, OM, Johnsen, S, Stanley, J, Tam, H, Brennan, S, McGowan, N, Vogelaar, A, Xu, Y, Serkin, W, Ghazi, A, Stroustrup, N and Apfeld, A*. Caenorhabditis elegans processes sensory information to choose between freeloading and self-defense strategies. eLife (2020). May 5; 9e56186. Doi: 10.7554/eLife.56186. PMID: 32367802
Wani, K. A, Goswamy, D, Taubert, S, Ratnappan, R, Ghazi, A, and Irazoqui, JE*. NHR-49/PPARa and HLH-30/TFEB 1 promote C. elegans host defense via a flavin-containing monooxygenase. eLife (2021). DOI: 10.7554/ eLife.62775. PMID: 33978570.
Loose, JA and Ghazi A*. Auxin treatment increases lifespan in Caenorhabditis elegans. Biology Open (2021). 10, bio058703. doi:10.1242/bio.058703
Academic and Research Interests
- Aging
- Reproduction
- Metabolism
- Lipid
- C. Elegans
- Healthspan
- Longevity
- Proteostasis
- Lifespan
- Development
- Germline