The Extracellular Matrix Proteoglycan Lumican Improves Survival and Counteracts Cardiac Dilatation and Failure in Mice Subjected to Pressure Overload

Overview

Journal Sci Rep

Specialty Science

Date 2019 Jun 26

PMID 31235849

Citations 26

Authors

Naiyereh Mohammadzadeh

Ida G Lunde

Kine Andenaes

Mari E Strand

Jan Magnus Aronsen

Biljana Skrbic

Henriette S Marstein

Caroline Bandlien

Stale Nygard

Joshua Gorham

Ivar Sjaastad

Shukti Chakravarti

Geir Christensen

Kristin V T Engebretsen

Theis Tonnessen

Affiliations

Soon will be listed here.

Abstract

Left ventricular (LV) dilatation is a key step in transition to heart failure (HF) in response to pressure overload. Cardiac extracellular matrix (ECM) contains fibrillar collagens and proteoglycans, important for maintaining tissue integrity. Alterations in collagen production and cross-linking are associated with cardiac LV dilatation and HF. Lumican (LUM) is a collagen binding proteoglycan with increased expression in hearts of patients and mice with HF, however, its role in cardiac function remains poorly understood. To examine the role of LUM in pressure overload induced cardiac remodeling, we subjected LUM knock-out (LUMKO) mice to aortic banding (AB) and treated cultured cardiac fibroblasts (CFB) with LUM. LUMKO mice exhibited increased mortality 1-14 days post-AB. Echocardiography revealed increased LV dilatation, altered hypertrophic remodeling and exacerbated contractile dysfunction in surviving LUMKO 1-10w post-AB. LUMKO hearts showed reduced collagen expression and cross-linking post-AB. Transcriptional profiling of LUMKO hearts by RNA sequencing revealed 714 differentially expressed transcripts, with enrichment of cardiotoxicity, ECM and inflammatory pathways. CFB treated with LUM showed increased mRNAs for markers of myofibroblast differentiation, proliferation and expression of ECM molecules important for fibrosis, including collagens and collagen cross-linking enzyme lysyl oxidase. In conclusion, we report the novel finding that lack of LUM attenuates collagen cross-linking in the pressure-overloaded heart, leading to increased mortality, dilatation and contractile dysfunction in mice.

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