Agrin Regulation of α3 Sodium-Potassium ATPase Activity Modulates Cardiac Myocyte Contraction

Lutz G.W Hilgenberg,Bryan Pham,Maria Ortega,Saif Walid,Thomas Kemmerly,Diane K O'Dowd,Martin A Smith

doi:10.1074/jbc.m806855200

Lutz G.W Hilgenberg, Bryan Pham + Show 5 more

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https://doi.org/10.1074/jbc.m806855200

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Abstract

Drugs that inhibit Na,K-ATPases, such as digoxin and ouabain, alter cardiac myocyte contractility. We recently demonstrated that agrin, a protein first identified at the vertebrate neuromuscular junction, binds to and regulates the activity of alpha3 subunit-containing isoforms of the Na,K-ATPase in the mammalian brain. Both agrin and the alpha3 Na,K-ATPase are expressed in heart, but their potential for interaction and effect on cardiac myocyte function was unknown. Here we show that agrin binds to the alpha3 subunit of the Na,K-ATPase in cardiac myocyte membranes, inducing tyrosine phosphorylation and inhibiting activity of the pump. Agrin also triggers a rapid increase in cytoplasmic Na(+) in cardiac myocytes, suggesting a role in cardiac myocyte function. Consistent with this hypothesis, spontaneous contraction frequencies of cultured cardiac myocytes prepared from mice in which agrin expression is blocked by mutation of the Agrn gene are significantly higher than in the wild type. The Agrn mutant phenotype is rescued by acute treatment with recombinant agrin. Furthermore, exposure of wild type myocytes to an agrin antagonist phenocopies the Agrn mutation. These data demonstrate that the basal frequency of myocyte contraction depends on endogenous agrin-alpha3 Na,K-ATPase interaction and suggest that agrin modulation of the alpha3 Na,K-ATPase is important in regulating heart function.

Highlights

Agrin Binds to the ␣3 Na,K-ATPase in Heart— We recently demonstrated that the ␣3 Na,K-ATPase is a receptor for agrin in central nervous system neurons
Because the ␣2 and ␣3 subunits are co-expressed in heart and brain, we could not rule out the possibility that agrin modulation of ATPase activity might require activity in ventricular myocyte membranes prepared from Agrnϩ/ϩ and AgrnϪ/Ϫ embryonic day 18 (E18) mouse hearts
Cardiac Myocyte Contraction Is Agrin-dependent—The ino- The major finding of this study is that suppression of agrin tropic effects of cardiac glycosides such as ouabain and digoxin signaling, either through genetic knock-out or treatment with derive from their ability to inhibit the Na,K-ATPase

Summary

Introduction

To learn whether agrin might play a similar role regulating Na,K-ATPase activity in cardiac myocytes, we tested the ability of different agrin fragments to modulate tyrosine phosphorylation of each ␣-subunit in adult heart tissue. A similar impact on Na,K-ATpase activity was observed in membranes prepared from adult mouse brain (EC50 C-Ag20 21.5 Ϯ 1.4 pM; EC50 C-Ag15 15.3 Ϯ 2.0 pM), evidence that agrin interacts with a common target in the two tissues (supplemental Fig. 3).

Results

Conclusion