Molecular pathophysiology of tubular transport disorders.
Inherited tubular transport disorders comprise a group of diseases that lead to profound derangements in the homeostasis of electrolytes, minerals, or organic solutes in the body. In the past decade remarkable progress has been made in our understanding of the molecular pathogenesis of hereditary tubulopathies and the fundamental molecular physiology of renal tubular transport processes. This review summarizes hereditary diseases caused by mutations in genes encoding transporter or channel proteins operating along the renal tubule. Review of the molecular basis of hereditary tubulopathies reveals various loss-of-function or gain-of-function mutations in genes encoding cotransporter, exchanger, or channel proteins, which are located in the luminal, basolateral, or endosomal membranes of the tubular cell or in paracellular tight junctions. These gene mutations result in a variety of functional defects in transporter/channel proteins, including decreased activity, impaired gating, defective trafficking, impaired endocytosis and degradation, or defective assembly of channel subunits. Further molecular studies of inherited tubular transport disorders may shed more light on the molecular pathophysiology of these diseases and may significantly improve our understanding of the mechanisms underlying renal salt homeostasis, urinary mineral excretion, and blood pressure regulation in health and disease. The identification of the molecular defects in inherited tubulopathies may provide a basis for future design of targeted therapeutic interventions and, possibly, strategies for gene therapy of these complex disorders.[1]References
- Molecular pathophysiology of tubular transport disorders. Zelikovic, I. Pediatr. Nephrol. (2001) [Pubmed]
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