BACKGROUND: Experimentally upregulating compliant titins has been suggested as a therapeutic for lowering pathological diastolic stiffness levels. However, how increasing titin compliance impacts global cardiac function requires in-depth study. We investigate the effect of upregulating compliant titins in a novel mouse model with a genetically altered titin splicing factor; integrative approaches were used from intact cardiomyocyte mechanics to pressure-volume analysis and Doppler echocardiography. METHODS AND RESULTS: Compliant titins were upregulated through deletion of the RNA Recognition Motif of the splicing factor RBM20 (Rbm20(ΔRRM)mice). A genome-wide exon expression analysis and a candidate approach revealed that the phenotype is likely to be dominated by greatly increased lengths of titin's spring elements. At both cardiomyocyte and left ventricular chamber levels, diastolic stiffness was reduced in heterozygous (+/-) Rbm20(ΔRRM)mice with a further reduction in homozygous (-/-) mice at only the intact myocyte level. Fibrosis was present in only -/- Rbm20(ΔRRM) hearts. The Frank-Starling Mechanism was reduced in a graded fashion in Rbm20(ΔRRM) mice, at both the cardiomyocyte and left ventricular chamber levels. Exercise tests revealed an increase in exercise capacity in +/- mice. CONCLUSIONS: Titin is not only important in diastolic but also in systolic cardiac function. Upregulating compliant titins reduces diastolic chamber stiffness owing to the increased compliance of myocytes, but it depresses end-systolic elastance; under conditions of exercise, the beneficial effects on diastolic function dominate. Therapeutic manipulation of the RBM20-based splicing system might be able to minimize effects on fibrosis and systolic function while improving the diastolic function in patients with heart failure.
BACKGROUND: Experimentally upregulating compliant titins has been suggested as a therapeutic for lowering pathological diastolic stiffness levels. However, how increasing titin compliance impacts global cardiac function requires in-depth study. We investigate the effect of upregulating compliant titins in a novel mouse model with a genetically altered titin splicing factor; integrative approaches were used from intact cardiomyocyte mechanics to pressure-volume analysis and Doppler echocardiography. METHODS AND RESULTS: Compliant titins were upregulated through deletion of the RNA Recognition Motif of the splicing factor RBM20 (Rbm20(ΔRRM)mice). A genome-wide exon expression analysis and a candidate approach revealed that the phenotype is likely to be dominated by greatly increased lengths of titin's spring elements. At both cardiomyocyte and left ventricular chamber levels, diastolic stiffness was reduced in heterozygous (+/-) Rbm20(ΔRRM)mice with a further reduction in homozygous (-/-) mice at only the intact myocyte level. Fibrosis was present in only -/- Rbm20(ΔRRM) hearts. The Frank-Starling Mechanism was reduced in a graded fashion in Rbm20(ΔRRM) mice, at both the cardiomyocyte and left ventricular chamber levels. Exercise tests revealed an increase in exercise capacity in +/- mice. CONCLUSIONS:Titin is not only important in diastolic but also in systolic cardiac function. Upregulating compliant titins reduces diastolic chamber stiffness owing to the increased compliance of myocytes, but it depresses end-systolic elastance; under conditions of exercise, the beneficial effects on diastolic function dominate. Therapeutic manipulation of the RBM20-based splicing system might be able to minimize effects on fibrosis and systolic function while improving the diastolic function in patients with heart failure.
Authors: Sherif F Nagueh; Gopi Shah; Yiming Wu; Guillermo Torre-Amione; Nicholas M P King; Sunshine Lahmers; Christian C Witt; Katy Becker; Siegfried Labeit; Henk L Granzier Journal: Circulation Date: 2004-07-06 Impact factor: 29.690
Authors: M L Bang; T Centner; F Fornoff; A J Geach; M Gotthardt; M McNabb; C C Witt; D Labeit; C C Gregorio; H Granzier; S Labeit Journal: Circ Res Date: 2001-11-23 Impact factor: 17.367
Authors: Charles S Chung; Kirk R Hutchinson; Mei Methawasin; Chandra Saripalli; John E Smith; Carlos G Hidalgo; Xiuju Luo; Siegfried Labeit; Caiying Guo; Henk L Granzier Journal: Circulation Date: 2013-05-24 Impact factor: 29.690
Authors: I Makarenko; C A Opitz; M C Leake; C Neagoe; M Kulke; J K Gwathmey; F del Monte; R J Hajjar; W A Linke Journal: Circ Res Date: 2004-09-02 Impact factor: 17.367
Authors: Massimo Reconditi; Marco Caremani; Francesca Pinzauti; Joseph D Powers; Theyencheri Narayanan; Ger J M Stienen; Marco Linari; Vincenzo Lombardi; Gabriella Piazzesi Journal: Proc Natl Acad Sci U S A Date: 2017-03-06 Impact factor: 11.205