Neuregulin 1 sustains the gene regulatory network in both trabecular and nontrabecular myocardium

Donna Lai, Xifu Liu, Ariel Forrai, Orit Wolstein, Jan Michalicek, Ishtiaq Ahmed, Alistair N. Garratt, Carmen Birchmeier, Mingdong Zhou, Lynne Hartley, Lorraine Robb, Michael P. Feneley, Diane Fatkin, Richard P. Harvey

Research output: Contribution to journalArticlepeer-review

Abstract

Rationale: The cardiac gene regulatory network (GRN) is controlled by transcription factors and signaling inputs, but network logic in development and it unraveling in disease is poorly understood. In development, the membrane-tethered signaling ligand Neuregulin (Nrg)1, expressed in endocardium, is essential for ventricular morphogenesis. In adults, Nrg1 protects against heart failure and can induce cardiomyocytes to divide. Objective: To understand the role of Nrg1 in heart development through analysis of null and hypomorphic Nrg1 mutant mice. Methods and Results: Chamber domains were correctly specified in Nrg1 mutants, although chamber-restricted genes Hand1 and Cited1 failed to be activated. The chamber GRN subsequently decayed with individual genes exhibiting decay patterns unrelated to known patterning boundaries. Both trabecular and nontrabecular myocardium were affected. Network demise was spatiotemporally dynamic, the most sensitive region being the central part of the left ventricle, in which the GRN underwent complete collapse. Other regions were partially affected with graded sensitivity. In vitro, Nrg1 promoted phospho-Erk1/2– dependent transcription factor expression, cardiomyocyte maturation and cell cycle inhibition. We monitored cardiac pErk1/2 in embryos and found that expression was Nrg1-dependent and levels correlated with cardiac GRN sensitivity in mutants. Conclusions: The chamber GRN is fundamentally labile and dependent on signaling from extracardiac sources. Nrg1–ErbB1/4 –Erk1/2 signaling critically sustains elements of the GRN in trabecular and nontrabecular myocardium, challenging our understanding of Nrg1 function. Transcriptional decay patterns induced by reduced Nrg1 suggest a novel mechanism for cardiac transcriptional regulation and dysfunction in disease, potentially linking biomechanical feedback to molecular pathways for growth and differentiation.
Original languageEnglish
Pages (from-to)715-727
Number of pages13
JournalCirculation Research
Volume107
Issue number6
DOIs
Publication statusPublished - 2010

Keywords

  • gene regulatory networks
  • genetic regulation
  • heart

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