Phorbol Dibutyrate (PDB) Regulation of the Cystic Fibrosis Transmembrane Conductance Regulator (CFTR) Does Not Involve MicroRNAs (miRNAs)

Osmani, Kashif; Mei, Ao; Domingue, Jada C.; Sarathy, Jayashree; Rao, Mrinalini C.

doi:10.1096/fasebj.29.1_supplement.855.5

FASEB j.

2015

DOI: 10.1096/fasebj.29.1_supplement.855.5

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Phorbol Dibutyrate (PDB) Regulation of the Cystic Fibrosis Transmembrane Conductance Regulator (CFTR) Does Not Involve MicroRNAs (miRNAs)

Kashif Osmani

Ao Mei

Jada C. Domingue

et al.

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Physiology of Electrolyte Transport in the Gut: Implications for Disease

Rao

2019

Comprehensive Physiology

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We now have an increased understanding of the genetics, cell biology, and physiology of electrolyte transport processes in the mammalian intestine, due to the availability of sophisticated methodologies ranging from genome wide association studies to CRISPR‐CAS technology, stem cell‐derived organoids, 3D microscopy, electron cryomicroscopy, single cell RNA sequencing, transgenic methodologies, and tools to manipulate cellular processes at a molecular level. This knowledge has simultaneously underscored the complexity of biological systems and the interdependence of multiple regulatory systems. In addition to the plethora of mammalian neurohumoral factors and their cross talk, advances in pyrosequencing and metagenomic analyses have highlighted the relevance of the microbiome to intestinal regulation. This article provides an overview of our current understanding of electrolyte transport processes in the small and large intestine, their regulation in health and how dysregulation at multiple levels can result in disease. Intestinal electrolyte transport is a balance of ion secretory and ion absorptive processes, all exquisitely dependent on the basolateral Na + /K + ATPase; when this balance goes awry, it can result in diarrhea or in constipation. The key transporters involved in secretion are the apical membrane Cl − channels and the basolateral Na + ‐K + ‐2Cl − cotransporter, NKCC1 and K + channels. Absorption chiefly involves apical membrane Na + /H + exchangers and Cl − /HCO 3 − exchangers in the small intestine and proximal colon and Na + channels in the distal colon. Key examples of our current understanding of infectious, inflammatory, and genetic diarrheal diseases and of constipation are provided. © 2019 American Physiological Society. Compr Physiol 9:947‐1023, 2019.

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Physiology of Electrolyte Transport in the Gut: Implications for Disease

Rao

2019

Comprehensive Physiology

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show abstract

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Phorbol Dibutyrate (PDB) Regulation of the Cystic Fibrosis Transmembrane Conductance Regulator (CFTR) Does Not Involve MicroRNAs (miRNAs)

Cited by 1 publication

References 0 publications

Physiology of Electrolyte Transport in the Gut: Implications for Disease

Physiology of Electrolyte Transport in the Gut: Implications for Disease

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