Cardiomyocyte substructure reverts to an immature phenotype during heart failure

Abstract: Key points As reactivation of the fetal gene program has been implicated in pathological remodelling during heart failure (HF), we examined whether cardiomyocyte subcellular structure and function revert to an immature phenotype during this disease. Surface and internal membrane structures appeared gradually during development, and returned to a juvenile state during HF. Similarly, dyadic junctions between the cell membrane and sarcoplasmic reticulum were progressively ‘packed’ with L‐type Ca2+ channels and r… Show more

“…However, with the progression of heart disease, such as HF, the disorganization of cardiomyocyte structure reflects a reversion to an immature phenotype manifested at both the cell surface and interior. 12 Interestingly, T-tubules are present in sheep cardiomyocytes during the embryonic period, which contrasts with previous findings. 13 The distribution of T-tubules varies not only among species but also across chambers.…”

“…Next, the number of longitudinal T‐tubules approached peak levels between 17.5 and 30 days after birth before decreasing in density as the cell reached adulthood. However, with the progression of heart disease, such as HF, the disorganization of cardiomyocyte structure reflects a reversion to an immature phenotype manifested at both the cell surface and interior . Interestingly, T‐tubules are present in sheep cardiomyocytes during the embryonic period, which contrasts with previous findings …”

Effect of BIN1 on cardiac dysfunction and malignant arrhythmias

“…However, with the progression of heart disease, such as HF, the disorganization of cardiomyocyte structure reflects a reversion to an immature phenotype manifested at both the cell surface and interior. 12 Interestingly, T-tubules are present in sheep cardiomyocytes during the embryonic period, which contrasts with previous findings. 13 The distribution of T-tubules varies not only among species but also across chambers.…”

“…Next, the number of longitudinal T‐tubules approached peak levels between 17.5 and 30 days after birth before decreasing in density as the cell reached adulthood. However, with the progression of heart disease, such as HF, the disorganization of cardiomyocyte structure reflects a reversion to an immature phenotype manifested at both the cell surface and interior . Interestingly, T‐tubules are present in sheep cardiomyocytes during the embryonic period, which contrasts with previous findings …”

Effect of BIN1 on cardiac dysfunction and malignant arrhythmias

“…We similarly examined only the early, pre‐contractile phase of Ca 2+ release (see Figs 8 and 9 in Lipsett et al . ). For similar reasons, we have not examined beat‐to‐beat stochasticity of local electrical or Ca 2+ fluorescence.…”

“…In their letter to the Editor, Crocini and colleagues comment on our recent article (Lipsett et al . ) published in The Journal of Physiology . In this article, we reported striking changes in cardiomyocyte substructure during heart failure, with reemergence of an immature phenotype.…”

Reply from M. Frisk, D. B. Lipsett and W. E. Louch

“…In their study recently published in The Journal of Physiology , Lipsett et al . (2019) attempted to explain t‐tubular defects observed in pathological cardiac remodelling during heart failure (HF) as the result of reactivation of the fetal gene programme in cardiomyocytes. In fact, fetal cardiomyocytes show rudimentary t‐tubular architecture, structurally similar to t‐tubules of HF cardiomyocytes.…”

Letter to the Editor