Misoprostol treatment prevents hypoxia-induced cardiac dysfunction through a 14-3-3 and PKA regulatory motif on Bnip3

Misoprostol treatment prevents hypoxia-induced cardiac dysfunction through a 14-3-3 and PKA regulatory motif on Bnip3

Abstract Systemic hypoxia is a common element in most perinatal emergencies and is a known driver of Bnip3 expression in the neonatal heart. Bnip3 plays a prominent role in the evolution of necrotic cell death, disrupting ER calcium homeostasis and initiating mitochondrial permeability transition (M...

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Autores principales: Matthew D. Martens, Nivedita Seshadri, Lucas Nguyen, Donald Chapman, Elizabeth S. Henson, Bo Xiang, Landon Falk, Arielys Mendoza, Sunil Rattan, Jared T. Field, Philip Kawalec, Spencer B. Gibson, Richard Keijzer, Ayesha Saleem, Grant M. Hatch, Christine A. Doucette, Jason M. Karch, Vernon W. Dolinsky, Ian M. Dixon, Adrian R. West, Christof Rampitsch, Joseph W. Gordon
Formato: article
Lenguaje:EN
Publicado: Nature Publishing Group 2021
Materias:
Cytology
QH573-671
Acceso en línea:https://doaj.org/article/e1343dcb2c5b484c91d04a2bde3e5a8e
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