Wnt11 regulates cardiac chamber development and disease during perinatal maturation
Marlin Touma, Xuedong Kang, Fuying Gao, Yan Zhao, Ashley A. Cass, Reshma Biniwale, Xinshu Xiao, Mansuoreh Eghbali, Giovanni Coppola, Brian Reemtsen, Yibin Wang
Marlin Touma, Xuedong Kang, Fuying Gao, Yan Zhao, Ashley A. Cass, Reshma Biniwale, Xinshu Xiao, Mansuoreh Eghbali, Giovanni Coppola, Brian Reemtsen, Yibin Wang
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Research Article Cardiology Genetics

Wnt11 regulates cardiac chamber development and disease during perinatal maturation

Abstract

Ventricular chamber growth and development during perinatal circulatory transition is critical for functional adaptation of the heart. However, the chamber-specific programs of neonatal heart growth are poorly understood. We used integrated systems genomic and functional biology analyses of the perinatal chamber specific transcriptome and we identified Wnt11 as a prominent regulator of chamber-specific proliferation. Importantly, downregulation of Wnt11 expression was associated with cyanotic congenital heart defect (CHD) phenotypes and correlated with O2 saturation levels in hypoxemic infants with Tetralogy of Fallot (TOF). Perinatal hypoxia treatment in mice suppressed Wnt11 expression and induced myocyte proliferation more robustly in the right ventricle, modulating Rb1 protein activity. Wnt11 inactivation was sufficient to induce myocyte proliferation in perinatal mouse hearts and reduced Rb1 protein and phosphorylation in neonatal cardiomyocytes. Finally, downregulated Wnt11 in hypoxemic TOF infantile hearts was associated with Rb1 suppression and induction of proliferation markers. This study revealed a previously uncharacterized function of Wnt11-mediated signaling as an important player in programming the chamber-specific growth of the neonatal heart. This function influences the chamber-specific development and pathogenesis in response to hypoxia and cyanotic CHDs. Defining the underlying regulatory mechanism may yield chamber-specific therapies for infants born with CHDs.

Authors

Marlin Touma, Xuedong Kang, Fuying Gao, Yan Zhao, Ashley A. Cass, Reshma Biniwale, Xinshu Xiao, Mansuoreh Eghbali, Giovanni Coppola, Brian Reemtsen, Yibin Wang

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Figure 7

Wnt11 regulates neonatal ventricular myocyte proliferation.

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Wnt11 regulates neonatal ventricular myocyte proliferation. (A) Manipula...
(A) Manipulation of Wnt11 in neonatal rat ventricular myocytes (NRVMs). Immunohistochemical (IHC) analysis of control (untreated), Wnt11-RNAi–treated, and exogenous recombinant Wnt11 (rWnt11)–treated NRVMs illustrates elongated mononucleated and phospho-histone H3–positive (p-H3–positive) cardiomyocytes (arrow) in Wnt11-suppressed NRVMs, and triangle-shaped, binucleated cardiomyocytes (arrow heads) in exogenous rWnt11-treated NRVMs. Original magnification, ×60. (B) Wnt11 inhibition efficiency analysis (qRT-PCR) is shown (right). (C) p-H3–positive cell number/area (μm2) in scramble-treated, Wnt11 siRNA–treated, or rWnt11-treated NRVMs. (D) Expression analysis of proliferation marker (Ki67) using RNA from scramble-treated or Wnt11 siRNA–treated NRVMs (qRT-PCR). (E) Binucleation index (binucleated cardiomyocyte number × 100/total cardiomyocytes/area [μm2]) analysis of scramble-treated, Wnt11 siRNA–treated, or rWnt11-treated NRVMs. n = 3 replicates per condition. Data are representative of 3 independent experiments. (F) Expression of proliferation marker (cyclin D1) using RNA from scramble-treated or rWnt11-treated NRVMs (qRT-PCR). (G) Western analysis of Rb1 protein abundance and phosphorylation (S807/S811) in neonatal myocytes in response to Wnt11 inhibition suggests that Wnt11 loss is associated with Rb1 suppression and reduced p-Rb1. (H) Western analysis of JNK and PKCα protein expression and their phosphorylated forms p-JNK and p-PKCα in NRVMs in response to Wnt11 suppression. *P ≤ 0.05; **P ≤ 0.01 by 1-way ANOVA and post-hoc Kruskal-Wallis test (C and E) and 2-tailed Student’s t test (B, D, and F) were used for intergroup analyses. NS, not significant.