PM
Reviewer
Pihu Mehrotra
  • Post-Doc, Princeton University
Research fields
  • Cancer Biology, Cell Biology, Developmental Biology, Molecular Biology, Stem Cell
Personal information

Education

Doctor

Lab information

Celeste Nelson Lab
https://cmngroup.princeton.edu/

Research focus

Stem Cells, Aging, Cellular metabolism

Publications

https://scholar.google.com/citations?user=AL5A5SwAAAAJ&hl=en&oi=ao
•Mehrotra, P., Ikhapoh I., Lei P., Tseropoulos G., Zhang Y., Wang J., Liu S., Bronner M.E., Andreadis S.T., "Wnt/BMP mediated metabolic reprogramming preserves multipotency of neural crest like stem cells." Stem Cells (2023).

•Mehrotra P., Tseropoulos G., Bronner M.E., Andreadis S.T., "Adult tissue–derived neural crest‐like stem cells: Sources, regulatory networks, and translational potential." Stem cells translational medicine 9, no. 3 (2020): 328-341.

•Mehrotra P., Zhang Y., Jablonski J., Toftegard J., Wang J., Shahini S., Liu S., Udin S.B., Andreadis S.T., Personius K., "NANOG induced skeletal muscle reprogramming enhances reinnervation after Peripheral Nerve Injury", Accepted, Nature Communications.

•Mehrotra, P., Bhamadhipati S.H., Toftegard J., Lei P., Choudhury D., Personius K., Andreadis S.T. "Age-associated loss of GPR81 is associated with impaired fatty acid metabolism and skeletal muscle senescence", In preparation.

•Tseropoulos G., Mehrotra P., Podder K.A., Willson E., Koontz A., Feltri L., Bronner M.E., Andreadis S.T., "Immobilized NRG1 accelerates differentiation towards functional Schwann cells, mediated through YAP/TAZ nuclear translocation". Advanced Science (2024): 2402607.

•Dyawanapelly, S., Mehrotra P., Ghosh G., Jagtap D.D., Dandekar P., Jain R.. "How the surface functionalized nanoparticles affect conformation and activity of proteins: Exploring through protein-nanoparticle interactions." Bioorganic chemistry 82 (2019): 17-25.

•Rajabian N., Choudhury D., Ikhapoh I., Saha S., Kalyankar A.S., Mehrotra P., Shahini A., Breed K., Andreadis S.T., "Reversine ameliorates hallmarks of cellular senescence in human skeletal myoblasts via reactivation of autophagy." Aging Cell (2023): e13764.

•Choudhury D., Rong N., Rajabian N., Tseropoulos G., Wu Y., Mehrotra P., Thiyagarajan R., Ikhapoh I., Shahini A., Seldeen K., Troen B., Lei P., Andreadis S.T., “Inhibition of glutaminolysis restores mitochondrial function in senescent stem cells”. Cell Reports (2022).

•Choudhury D., Rong N., Kumar H.V., Swedick S., Samuel R.Z., Mehrotra P., Toftegaard J., Rajabian N., Thiyagarajan R., Podder A.K., Wu Y., Shahini S., Seldeen K., Troen B., Lei P., Andreadis S.T., "Proline restores mitochondrial function and reverses aging hallmarks in senescent cells". Cell
Reports (2024).

•Boroujeni S.M., Koontz A., Tseropoulos G., Kerosuo L., Mehrotra P., Bajpai V.K., Selvam S.R., Lei P., Bronner M.E., Andreadis S.T., "Neural crest stem cells from human epidermis of aged donors maintain their multipotency in vitro and in vivo." Scientific reports 9, no. 1 (2019): 1-12.
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