Down Syndrome Critical Region 1 Gene, , Helps Maintain a More Fused Mitochondrial Network

Overview

Journal Circ Res

Specialty Cardiology & Vascular Diseases

Date 2018 Jan 25

PMID 29362227

Citations 31

Authors

Valentina Parra

Francisco Altamirano

Carolina P Hernandez-Fuentes

Dan Tong

Victoriia Kyrychenko

David Rotter

Zully Pedrozo

Joseph A Hill

Veronica Eisner

Sergio Lavandero

Jay W Schneider

Beverly A Rothermel

Affiliations

Soon will be listed here.

Abstract

Rationale: The regulator of calcineurin 1 (RCAN1) inhibits CN (calcineurin), a Ca-activated protein phosphatase important in cardiac remodeling. In humans, is located on chromosome 21 in proximity to the Down syndrome critical region. The hearts and brains of mice are more susceptible to damage from ischemia/reperfusion (I/R); however, the underlying cause is not known.

Objective: Mitochondria are key mediators of I/R damage. The goal of these studies was to determine the impact of RCAN1 on mitochondrial dynamics and function.

Methods And Results: Using both neonatal and isolated adult cardiomyocytes, we show that, when RCAN1 is depleted, the mitochondrial network is more fragmented because of increased CN-dependent activation of the fission protein, DRP1 (dynamin-1-like). Mitochondria in RCAN1-depleted cardiomyocytes have reduced membrane potential, O consumption, and generation of reactive oxygen species, as well as a reduced capacity for mitochondrial Ca uptake. RCAN1-depleted cardiomyocytes were more sensitive to I/R; however, pharmacological inhibition of CN, DRP1, or CAPN (calpains; Ca-activated proteases) restored protection, suggesting that in the absence of RCAN1, CAPN-mediated damage after I/R is greater because of a decrease in the capacity of mitochondria to buffer cytoplasmic Ca. Increasing RCAN1 levels by adenoviral infection was sufficient to enhance fusion and confer protection from I/R. To examine the impact of more modest, and biologically relevant, increases in RCAN1, we compared the mitochondrial network in induced pluripotent stem cells derived from individuals with Down syndrome to that of isogenic, disomic controls. Mitochondria were more fused, and O consumption was greater in the trisomic induced pluripotent stem cells; however, coupling efficiency and metabolic flexibility were compromised compared with disomic induced pluripotent stem cells. Depletion of RCAN1 from trisomic induced pluripotent stem cells was sufficient to normalize mitochondrial dynamics and function.

Conclusions: RCAN1 helps maintain a more interconnected mitochondrial network, and maintaining appropriate RCAN1 levels is important to human health and disease.

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