Augmenting workload drives T‐tubule assembly in developing cardiomyocytes

Author:

Manfra Ornella123ORCID,Louey Samantha34ORCID,Jonker Sonnet S.34ORCID,Perdreau‐Dahl Harmonie12,Frisk Michael12,Giraud George D.345,Thornburg Kent L.34ORCID,Louch William E.12ORCID

Affiliation:

1. Institute for Experimental Medical Research Oslo University Hospital and University of Oslo Oslo Norway

2. K.G. Jebsen Centre for Cardiac Research University of Oslo Oslo Norway

3. Center for Developmental Health, Knight Cardiovascular Institute Oregon Health and Science University Portland OR USA

4. Department of Chemical Physiology and Biochemistry Oregon Health and Science University OR USA

5. VA Portland Health Care System Portland OR USA

Abstract

AbstractContraction of cardiomyocytes is initiated at subcellular elements called dyads, where L‐type Ca2+ channels in t‐tubules are located within close proximity to ryanodine receptors in the sarcoplasmic reticulum. While evidence from small rodents indicates that dyads are assembled gradually in the developing heart, it is unclear how this process occurs in large mammals. We presently examined dyadic formation in fetal and newborn sheep (Ovis aries), and the regulation of this process by fetal cardiac workload. By employing advanced imaging methods, we demonstrated that t‐tubule growth and dyadic assembly proceed gradually during fetal sheep development, from 93 days of gestational age until birth (147 days). This process parallels progressive increases in fetal systolic blood pressure, and includes step‐wise colocalization of L‐type Ca2+ channels and the Na+/Ca2+ exchanger with ryanodine receptors. These proteins are upregulated together with the dyadic anchor junctophilin‐2 during development, alongside changes in the expression of amphiphysin‐2 (BIN1) and its partner proteins myotubularin and dynamin‐2. Increasing fetal systolic load by infusing plasma or occluding the post‐ductal aorta accelerated t‐tubule growth. Conversely, reducing fetal systolic load with infusion of enalaprilat, an angiotensin converting enzyme inhibitor, blunted t‐tubule formation. Interestingly, altered t‐tubule densities did not relate to changes in dyadic junctions, or marked changes in the expression of dyadic regulatory proteins, indicating that distinct signals are responsible for maturation of the sarcoplasmic reticulum. In conclusion, augmenting blood pressure and workload during normal fetal development critically promotes t‐tubule growth, while additional signals contribute to dyadic assembly. imageKey points T‐tubule growth and dyadic assembly proceed gradually in cardiomyocytes during fetal sheep development, from 93 days of gestational age until the post‐natal stage. Increasing fetal systolic load by infusing plasma or occluding the post‐ductal aorta accelerated t‐tubule growth and hypertrophy. In contrast, reducing fetal systolic load by enalaprilat infusion slowed t‐tubule development and decreased cardiomyocyte size. Load‐dependent modulation of t‐tubule maturation was linked to altered expression patterns of the t‐tubule regulatory proteins junctophilin‐2 and amphiphysin‐2 (BIN1) and its protein partners. Altered t‐tubule densities did not influence dyadic formation, indicating that distinct signals are responsible for maturation of the sarcoplasmic reticulum.

Funder

Eunice Kennedy Shriver National Institute of Child Health and Human Development

Publisher

Wiley

Subject

Physiology

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