Paras Kumar Mishra, PhD

Associate Professor at University of Nebraska Medical Center


Curriculum vitae



Cellular and Integrative Physiology

University of Nebraska Medical Center



Harnessing fetal and adult genetic reprograming for therapy of heart disease.


Journal article


S. Nandi, P. Mishra
Journal of nature and science, 2015

Semantic Scholar PubMed
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Cite

APA   Click to copy
Nandi, S., & Mishra, P. (2015). Harnessing fetal and adult genetic reprograming for therapy of heart disease. Journal of Nature and Science.


Chicago/Turabian   Click to copy
Nandi, S., and P. Mishra. “Harnessing Fetal and Adult Genetic Reprograming for Therapy of Heart Disease.” Journal of nature and science (2015).


MLA   Click to copy
Nandi, S., and P. Mishra. “Harnessing Fetal and Adult Genetic Reprograming for Therapy of Heart Disease.” Journal of Nature and Science, 2015.


BibTeX   Click to copy

@article{s2015a,
  title = {Harnessing fetal and adult genetic reprograming for therapy of heart disease.},
  year = {2015},
  journal = {Journal of nature and science},
  author = {Nandi, S. and Mishra, P.}
}

Abstract

Heart is the first organ formed during organogenesis. The fetal heart undergoes several structural and functional modifications to form the four-chambered mammalian heart. The adult heart shows different adaptations during compensatory and decompensatory heart failure. However, one common adaptation in the pathological heart is fetal reprogramming, where the adult heart expresses several genes and miRNAs which are active in the fetal stage. The fetal reprogramming in the failing heart raises several questions, such as whether the switch of adult to fetal genetic programming is an adaptive response to cope with adverse remodeling of the heart, does the expression of fetal genes protect the heart during compensatory and/or decompensatory heart failure, does repressing the fetal gene in the failing heart is protective to the heart? To answer these questions, we need to understand the expression of genes and miRNAs that are reprogrammed in the failing heart. In view of this, we provided an overview of differentially expressed genes and miRNAs, and their regulation in this review. Further, we elaborated novel strategies for a plausible future therapy of cardiovascular diseases.


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