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Medicine Matters Home Article of the Week Right Ventricular Myofilament Functional Differences in Humans with Systemic Sclerosis-associated versus Idiopathic Pulmonary Arterial Hypertension

Right Ventricular Myofilament Functional Differences in Humans with Systemic Sclerosis-associated versus Idiopathic Pulmonary Arterial Hypertension

ARTICLE: Right Ventricular Myofilament Functional Differences in Humans with Systemic Sclerosis-associated versus Idiopathic Pulmonary Arterial Hypertension

AUTHORS: Steven HsuKristen M. Kokkonen-Simon, Jonathan A. Kirk, Todd M. KolbRachel L. DamicoStephen C. MathaiMonica MukherjeeAmi A. ShahFredrick M. Wigley, Kenneth B. Margulies, Paul M. Hassoun, Marc K. Halushka, Ryan J. TedfordDavid A Kass

JOURNAL: Circulation. 2018 Jan 19. pii: CIRCULATIONAHA.117.033147. doi: 10.1161/CIRCULATIONAHA.117.033147. [Epub ahead of print]

Abstract

BACKGROUND: Patients with systemic sclerosis-associated pulmonary arterial hypertension (SSc-PAH) have a far worse prognosis than those with idiopathic PAH (IPAH). In the intact heart, SSc-PAH exhibits depressed rest and reserve right ventricular (RV) contractility as compared to IPAH. We tested whether this disparity involves underlying differences in myofilament function.

METHODS: Cardiac myocytes were isolated from RV septal endomyocardial biopsies from patients with SSc-PAH, IPAH, or SSc with exertional dyspnea but no resting PAH (SSc-d); control RV septal tissue was obtained from non-diseased donor hearts (6-7/group). Isolated myocyte passive length-tension and developed tension-calcium relationships were determined and correlated with in vivo RV function and reserve. RV septal fibrosis was also examined.

RESULTS: Myocyte passive stiffness from length-tension relations was similarly increased in IPAH and SSc-PAH over control, although SSc-PAH biopsies had more interstitial fibrosis. More striking disparities were found between active force-calcium relations. Compared to controls, maximal calcium-activated force (Fmax) was 28% higher in IPAH but 37% lower in SSc-PAH. Fmax in SSc-d was intermediate between control and SSc-PAH. The calcium concentration required for half-maximal force (EC50) was similar between control, IPAH, and SSc-d, but lower in SSc-PAH. This disparity disappeared in myocytes incubated with the active catalytic subunit of protein kinase A. Myocyte Fmax directly correlated with in vivo RV contractility assessed by end-systolic elastance (Ees, R2=0.46, P=0.002) and change in Ees with exercise (R2=0.49, P=0.008), and was inversely related with exercise-induced chamber dilation (R2=0.63, P<0.002), the latter also a marker of depressed contractile reserve.

CONCLUSIONS: A primary defect in human SSc-PAH resides in depressed sarcomere function, whereas this is enhanced in IPAH. These disparities correlate with in vivo RV contractility and contractile reserve, and are consistent with worse clinical outcomes in SSc-PAH. The existence of sarcomere disease prior to developing resting PAH in SSc-d patients suggests that earlier identification and intervention may prove useful.

For a link to the full article, click here: http://circ.ahajournals.org/content/early/2018/01/17/CIRCULATIONAHA.117.033147.long

Link to abstract online: https://www.ncbi.nlm.nih.gov/pubmed/?term=Right+Ventricular+Myofilament+Functional+Differences+in+Humans+with+Systemic+Sclerosis-associated+versus+Idiopathic+Pulmonary+Arterial+Hypertension

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Kelsey Bennett