Andrea Y. Chan scite author profile

SUMMARY It is widely believed that perinatal cardiomyocyte terminal differentiation blocks cytokinesis, thereby causing binucleation and limiting regenerative repair after injury. This suggests that heart growth should occur entirely by cardiomyocyte hypertrophy during preadolescence when, in mice, cardiac mass increases many-fold over a few weeks. Here we show thata thyroid hormone surge activates the IGF-1/IGF1-R/Akt pathway on postnatal day-15andinitiates a brief but intense proliferative burst of predominantly binuclear cardiomyocytes. This proliferation increases cardiomyocyte numbers by ~40%, causing a major disparity between heart and cardiomyocyte growth. Also, the response to cardiac injury at postnatal day15 is intermediate between that observed at postnatal day-2 and -21, further suggesting persistence of cardiomyocyte proliferative capacity beyond the perinatal period. If replicated in humans, this may allow novel regenerative therapies for heart diseases.

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Restriction of essential amino acids dictates the systemic metabolic response to dietary protein dilution

Yap

Rusu

Chan

et al. 2020

Nat Commun

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Dietary protein dilution (DPD) promotes metabolic-remodelling and-health but the precise nutritional components driving this response remain elusive. Here, by mimicking amino acid (AA) supply from a casein-based diet, we demonstrate that restriction of dietary essential AA (EAA), but not non-EAA, drives the systemic metabolic response to total AA deprivation; independent from dietary carbohydrate supply. Furthermore, systemic deprivation of threonine and tryptophan, independent of total AA supply, are both adequate and necessary to confer the systemic metabolic response to both diet, and genetic AA-transport loss, driven AA restriction. Dietary threonine restriction (DTR) retards the development of obesityassociated metabolic dysfunction. Liver-derived fibroblast growth factor 21 is required for the metabolic remodelling with DTR. Strikingly, hepatocyte-selective establishment of threonine biosynthetic capacity reverses the systemic metabolic response to DTR. Taken together, our studies of mice demonstrate that the restriction of EAA are sufficient and necessary to confer the systemic metabolic effects of DPD.

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Liver alanine catabolism promotes skeletal muscle atrophy and hyperglycaemia in type 2 diabetes

et al. 2021

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Orphan receptor GPR37L1 contributes to the sexual dimorphism of central cardiovascular control

Coleman

Mouat

et al. 2018

Biol Sex Differ

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BackgroundOver 100 mammalian G protein-coupled receptors are yet to be matched with endogenous ligands; these so-called orphans are prospective drug targets for the treatment of disease. GPR37L1 is one such orphan, abundant in the brain and detectable as mRNA in the heart and kidney. GPR37L1 ablation was reported to cause hypertension and left ventricular hypertrophy, and thus, we sought to further define the role of GPR37L1 in blood pressure homeostasis.MethodsWe investigated the cardiovascular effects of GPR37L1 using wild-type (GPR37L1wt/wt) and null (GPR37L1KO/KO) mice established on a C57BL/6J background, both under baseline conditions and during AngII infusion. We profiled GPR37L1 tissue expression, examining the endogenous receptor by immunoblotting and a β-galactosidase reporter mouse by immunohistochemistry.ResultsGPR37L1 protein was abundant in the brain but not detectable in the heart and kidney. We measured blood pressure in GPR37L1wt/wt and GPR37L1KO/KO mice and found that deletion of GPR37L1 causes a female-specific increase in systolic, diastolic, and mean arterial pressures. When challenged with short-term AngII infusion, only male GPR37L1KO/KO mice developed exacerbated left ventricular hypertrophy and evidence of heart failure, while the female GPR37L1KO/KO mice were protected from cardiac fibrosis.ConclusionsDespite its absence in the heart and kidney, GPR37L1 regulates baseline blood pressure in female mice and is crucial for cardiovascular compensatory responses in males. The expression of GPR37L1 in the brain, yet absence from peripheral cardiovascular tissues, suggests this orphan receptor is a hitherto unknown contributor to central cardiovascular control.Electronic supplementary materialThe online version of this article (10.1186/s13293-018-0173-y) contains supplementary material, which is available to authorized users.

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The Ca2+-activated cation channel TRPM4 is a positive regulator of pressure overload-induced cardiac hypertrophy

Guo

et al. 2021

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Pathological left ventricular hypertrophy (LVH) occurs in response to pressure overload and remains the single most important clinical predictor of cardiac mortality. The molecular pathways in the induction of pressure overload LVH are potential targets for therapeutic intervention. Current treatments aim to remove the pressure overload stimulus for LVH, but do not completely reverse adverse cardiac remodelling. Although numerous molecular signalling steps in the induction of LVH have been identified, the initial step by which mechanical stretch associated with cardiac pressure overload is converted into a chemical signal that initiates hypertrophic signalling remains unresolved. In this study, we show that selective deletion of transient receptor potential melastatin 4 (TRPM4) channels in mouse cardiomyocytes results in an approximately 50% reduction in the LVH induced by transverse aortic constriction. Our results suggest that TRPM4 channel is an important component of the mechanosensory signalling pathway that induces LVH in response to pressure overload and represents a potential novel therapeutic target for the prevention of pathological LVH.

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Cardiac hypertrophy limits infarct expansion after myocardial infarction in mice

Iismaa

Kesteven

et al. 2018

Sci Rep

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We have previously demonstrated that adult transgenic C57BL/6J mice with CM-restricted overexpression of the dominant negative Wv mutant protein (dn-c-kit-Tg) respond to pressure overload with robust cardiomyocyte (CM) cell cycle entry. Here, we tested if outcomes after myocardial infarction (MI) due to coronary artery ligation are improved in this transgenic model. Compared to non-transgenic littermates (NTLs), adult male dn-c-kit-Tg mice displayed CM hypertrophy and concentric left ventricular (LV) hypertrophy in the absence of an increase in workload. Stroke volume and cardiac output were preserved and LV wall stress was markedly lower than that in NTLs, leading to a more energy-efficient heart. In response to MI, infarct size in adult (16-week old) dn-c-kit-Tg hearts was similar to that of NTL after 24 h but was half that in NTL hearts 12 weeks post-MI. Cumulative CM cell cycle entry was only modestly increased in dn-c-kit-Tg hearts. However, dn-c-kit-Tg mice were more resistant to infarct expansion, adverse LV remodelling and contractile dysfunction, and suffered no early death from LV rupture, relative to NTL mice. Thus, pre-existing cardiac hypertrophy lowers wall stress in dn-c-kit-Tg hearts, limits infarct expansion and prevents death from myocardial rupture.

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The Ca²⁺-activated cation channel TRPM4 is a positive regulator of pressure overload-induced cardiac hypertrophy

Guo

et al. 2020

Preprint

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Pathological left ventricular hypertrophy (LVH) is a consequence of pressure overload caused by systemic hypertension or aortic stenosis and is a strong predictor of cardiac failure and mortality. Understanding the molecular pathways in the development of pathological LVH may lead to more effective treatment. Here, we show that the transient receptor potential cation channel subfamily melastatin 4 (TRPM4) ion channel is an important contributor to the mechanosensory transduction of pressure overload that induces LVH. In mice with pressure overload induced by transverse aortic constriction (TAC) for two weeks, cardiomyocyte TRPM4 expression was reduced, as compared to control mice. Cardiomyocyte-specific TRPM4 inactivation reduced by ~50% the degree of TAC-induced LVH, as compared with wild type (WT). In WT mice, TAC activated the CaMKIIδ-HDAC4-MEF2A but not the calcineurin-NFAT-GATA4 pathway. In TRPM4 knock-out mice, activation of the CaMKIIδ-HDAC4-MEF2A pathway by TAC was significantly reduced. However, consistent with a reduction in the known inhibitory effect of CaMKIIδ on calcineurin activity, reduction in the CaMKIIδ-HDAC4-MEF2A pathway was associated with partial activation of the calcineurin-NFAT-GATA4 pathway. These findings indicate that the TRPM4 channel and its cognate signalling pathway are potential novel therapeutic targets for the prevention of pathological pressure overload-induced LVH.Significance statementPathological left ventricular hypertrophy (LVH) occurs in response to pressure overload and remains the single most important clinical predictor of cardiac mortality. Preventing pressure overload LVH is a major goal of therapeutic intervention. Current treatments aim to remove the stimulus for LVH by lowering elevated blood pressure or replacing a stenotic aortic valve. However, neither of these interventions completely reverses adverse cardiac remodelling. Although numerous molecular signalling steps in the induction of LVH have been identified, the initial step by which mechanical stretch associated with cardiac pressure overload is converted into a chemical signal that initiates hypertrophic signalling, remains unresolved. Here, we demonstrate that the TRPM4 channel is a component of the mechanosensory transduction pathway that ultimately leads to LVH.

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Pressure overload by suprarenal aortic constriction in mice leads to left ventricular hypertrophy without c-Kit expression in cardiomyocytes

Nicks

Kesteven

et al. 2020

Sci Rep

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Animal models of pressure overload are valuable for understanding hypertensive heart disease. We characterised a surgical model of pressure overload-induced hypertrophy in C57BL/6J mice produced by suprarenal aortic constriction (SAC). Compared to sham controls, at one week post-SAC systolic blood pressure was significantly elevated and left ventricular (LV) hypertrophy was evident by a 50% increase in the LV weight-to-tibia length ratio due to cardiomyocyte hypertrophy. As a result, LV end-diastolic wall thickness-to-chamber radius (h/R) ratio increased, consistent with the development of concentric hypertrophy. LV wall thickening was not sufficient to normalise LV wall stress, which also increased, resulting in LV systolic dysfunction with reductions in ejection fraction and fractional shortening, but no evidence of heart failure. Pathological LV remodelling was evident by the re-expression of fetal genes and coronary artery perivascular fibrosis, with ischaemia indicated by enhanced cardiomyocyte Hif1a expression. The expression of stem cell factor receptor, c-Kit, was low basally in cardiomyocytes and did not change following the development of robust hypertrophy, suggesting there is no role for cardiomyocyte c-Kit signalling in pathological LV remodelling following pressure overload.

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Andrea Y. Chan

A Proliferative Burst during Preadolescence Establishes the Final Cardiomyocyte Number

Restriction of essential amino acids dictates the systemic metabolic response to dietary protein dilution

Liver alanine catabolism promotes skeletal muscle atrophy and hyperglycaemia in type 2 diabetes

Orphan receptor GPR37L1 contributes to the sexual dimorphism of central cardiovascular control

The Ca2+-activated cation channel TRPM4 is a positive regulator of pressure overload-induced cardiac hypertrophy

Cardiac hypertrophy limits infarct expansion after myocardial infarction in mice

The Ca²⁺-activated cation channel TRPM4 is a positive regulator of pressure overload-induced cardiac hypertrophy

Pressure overload by suprarenal aortic constriction in mice leads to left ventricular hypertrophy without c-Kit expression in cardiomyocytes

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