Tyrosyl phosphorylation of PZR promotes hypertrophic cardiomyopathy in PTPN11-associated Noonan syndrome with multiple lentigines
Jae-Sung Yi, Sravan Perla, Liz Enyenihi, Anton M. Bennett
Jae-Sung Yi, Sravan Perla, Liz Enyenihi, Anton M. Bennett
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Research Article Cardiology

Tyrosyl phosphorylation of PZR promotes hypertrophic cardiomyopathy in PTPN11-associated Noonan syndrome with multiple lentigines

Abstract

Noonan syndrome with multiple lentigines (NSML) is a rare autosomal dominant disorder that presents with cardio-cutaneous-craniofacial defects. Hypertrophic cardiomyopathy (HCM) represents the major life-threatening presentation in NSML. Mutations in the PTPN11 gene that encodes for the protein tyrosine phosphatase (PTP), SHP2, represents the predominant cause of HCM in NSML. NSML-associated PTPN11 mutations render SHP2 catalytically inactive with an “open” conformation. NSML-associated PTPN11 mutations cause hypertyrosyl phosphorylation of the transmembrane glycoprotein, protein zero-related (PZR), resulting in increased SHP2 binding. Here we show that NSML mice harboring a tyrosyl phosphorylation–defective mutant of PZR (NSML/PZRY242F) that is defective for SHP2 binding fail to develop HCM. Enhanced AKT/S6 kinase signaling in heart lysates of NSML mice was reversed in NSML/PZRY242F mice, demonstrating that PZR/SHP2 interactions promote aberrant AKT/S6 kinase activity in NSML. Enhanced PZR tyrosyl phosphorylation in the hearts of NSML mice was found to drive myocardial fibrosis by engaging an Src/NF-κB pathway, resulting in increased activation of IL-6. Increased expression of IL-6 in the hearts of NSML mice was reversed in NSML/PZRY242F mice, and PZRY242F mutant fibroblasts were defective for IL-6 secretion and STAT3-mediated fibrogenesis. These results demonstrate that NSML-associated PTPN11 mutations that induce PZR hypertyrosyl phosphorylation trigger pathophysiological signaling that promotes HCM and cardiac fibrosis.

Authors

Jae-Sung Yi, Sravan Perla, Liz Enyenihi, Anton M. Bennett

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Figure 2

PZRY242F mutation rescues NSML-associated cardiomyopathies.

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PZRY242F mutation rescues NSML-associated cardiomyopathies. (A) Heart we...
(A) Heart weight (H.W.), heart weight to body weight (H.W./B.W.) ratios, and heart weight to tibia length (H.W./T.L.) ratios were measured from 16-week-old WT (Ptpn11+/+ Mpzl1+/Y242F), NSML (Ptpn11Y279C/+ Mpzl1+/Y242F), PZRY242F (Ptpn11+/+ Mpzl1Y242F/Y242F), and NSML/PZRY242F (Ptpn11Y279C/+ Mpzl1Y242F/Y242F) mice (n = 10 for WT and NSML; n = 9 for PZRY242F and NSML/PZRY242F). (B) Gross morphology of hearts from 16-week-old mice. (C) H&E-stained longitudinal sections of hearts from 16-week-old mice (scale bar: 1 mm). (DF) H&E stain (D) and Alexa Fluor 488–conjugated wheat germ agglutinin (WGA) stain (E) of left ventricles from 16-week-old mice (scale bar: 50 μm). The cross-sectional area of cardiomyocytes of each genotype was quantitated (F). Quantified data are represented as a box-and-whisker plot, with bonds from 25th to 75th percentile, median line, and whiskers ranging from minimum to maximum values (n = 1067 for WT, n = 698 for NSML, n = 1023 for PZRY242F, and n = 1241 for NSML/PZRY242F). (G and H) Representative echocardiographic images of 16-week-old mice (G). LVPW and IVS in diastole (d) were measured from echocardiograms (H) (n = 7 for each group). (I and J) The relative mRNA expression levels of Myh6 and Myh7 and the ratio of Myh7 and Myh6 (I) and Nppa and Nppb (J) in the hearts of 16-week-old mice were measured by quantitative reverse transcription PCR (qRT-PCR) (n = 7 for each group). All data represent mean ± SEM. Statistical significance was analyzed with 1-way ANOVA with 2-stage linear step-up procedure of Benjamini, Krieger, and Yekutieli correction for multiple comparisons.