O-GlcNAcylation of Histone Deacetylase 4 Protects the Diabetic Heart From Failure. Issue 7 (13th August 2019)
- Record Type:
- Journal Article
- Title:
- O-GlcNAcylation of Histone Deacetylase 4 Protects the Diabetic Heart From Failure. Issue 7 (13th August 2019)
- Main Title:
- O-GlcNAcylation of Histone Deacetylase 4 Protects the Diabetic Heart From Failure
- Authors:
- Kronlage, Mariya
Dewenter, Matthias
Grosso, Johannes
Fleming, Thomas
Oehl, Ulrike
Lehmann, Lorenz H.
Falcão-Pires, Inês
Leite-Moreira, Adelino F.
Volk, Nadine
Gröne, Hermann-Josef
Müller, Oliver J.
Sickmann, Albert
Katus, Hugo A.
Backs, Johannes - Abstract:
- Abstract : Background: Worldwide, diabetes mellitus and heart failure represent frequent comorbidities with high socioeconomic impact and steadily growing incidence, calling for a better understanding of how diabetic metabolism promotes cardiac dysfunction. Paradoxically, some glucose-lowering drugs have been shown to worsen heart failure, raising the question of how glucose mediates protective versus detrimental cardiac signaling. Here, we identified a histone deacetylase 4 (HDAC4) subdomain as a molecular checkpoint of adaptive and maladaptive signaling in the diabetic heart. Methods: A conditional HDAC4 allele was used to delete HDAC4 specifically in cardiomyocytes (HDAC4-knockout). Mice were subjected to diabetes mellitus either by streptozotocin injections (type 1 diabetes mellitus model) or by crossing into mice carrying a leptin receptor mutation (db/db; type 2 diabetes mellitus model) and monitored for remodeling and cardiac function. Effects of glucose and the posttranslational modification by β-linked N -acetylglucosamine (O-GlcNAc) on HDAC4 were investigated in vivo and in vitro by biochemical and cellular assays. Results: We show that the cardio-protective N-terminal proteolytic fragment of HDAC4 is enhanced in vivo in patients with diabetes mellitus and mouse models, as well as in vitro under high-glucose and high–O-GlcNAc conditions. HDAC4-knockout mice develop heart failure in models of type 1 and type 2 diabetes mellitus, whereas wild-type mice do not developAbstract : Background: Worldwide, diabetes mellitus and heart failure represent frequent comorbidities with high socioeconomic impact and steadily growing incidence, calling for a better understanding of how diabetic metabolism promotes cardiac dysfunction. Paradoxically, some glucose-lowering drugs have been shown to worsen heart failure, raising the question of how glucose mediates protective versus detrimental cardiac signaling. Here, we identified a histone deacetylase 4 (HDAC4) subdomain as a molecular checkpoint of adaptive and maladaptive signaling in the diabetic heart. Methods: A conditional HDAC4 allele was used to delete HDAC4 specifically in cardiomyocytes (HDAC4-knockout). Mice were subjected to diabetes mellitus either by streptozotocin injections (type 1 diabetes mellitus model) or by crossing into mice carrying a leptin receptor mutation (db/db; type 2 diabetes mellitus model) and monitored for remodeling and cardiac function. Effects of glucose and the posttranslational modification by β-linked N -acetylglucosamine (O-GlcNAc) on HDAC4 were investigated in vivo and in vitro by biochemical and cellular assays. Results: We show that the cardio-protective N-terminal proteolytic fragment of HDAC4 is enhanced in vivo in patients with diabetes mellitus and mouse models, as well as in vitro under high-glucose and high–O-GlcNAc conditions. HDAC4-knockout mice develop heart failure in models of type 1 and type 2 diabetes mellitus, whereas wild-type mice do not develop clear signs of heart failure, indicating that HDAC4 protects the diabetic heart. Reexpression of the N-terminal fragment of HDAC4 prevents HDAC4-dependent diabetic cardiomyopathy. Mechanistically, the posttranslational modification of HDAC4 at serine (Ser)-642 by O-GlcNAcylation is an essential step for production of the N-terminal fragment of HDAC4, which was attenuated by Ca 2+ /calmodulin–dependent protein kinase II–mediated phosphorylation at Ser-632. Preventing O-GlcNAcylation at Ser-642 not only entirely precluded production of the N-terminal fragment of HDAC4 but also promoted Ca 2+ /calmodulin–dependent protein kinase II–mediated phosphorylation at Ser-632, pointing to a mutual posttranslational modification cross talk of (cardio-detrimental) phosphorylation at Ser-632 and (cardio-protective) O-GlcNAcylation at Ser-642. Conclusions: In this study, we found that O-GlcNAcylation of HDAC4 at Ser-642 is cardio-protective in diabetes mellitus and counteracts pathological Ca 2+ /calmodulin–dependent protein kinase II signaling. We introduce a molecular model explaining how diabetic metabolism possesses important cardio-protective features besides its known detrimental effects. A deeper understanding of the here-described posttranslational modification cross talk may lay the groundwork for the development of specific therapeutic concepts to treat heart failure in the context of diabetes mellitus. Abstract : Supplemental Digital Content is available in the text. … (more)
- Is Part Of:
- Circulation. Volume 140:Issue 7(2019)
- Journal:
- Circulation
- Issue:
- Volume 140:Issue 7(2019)
- Issue Display:
- Volume 140, Issue 7 (2019)
- Year:
- 2019
- Volume:
- 140
- Issue:
- 7
- Issue Sort Value:
- 2019-0140-0007-0000
- Page Start:
- Page End:
- Publication Date:
- 2019-08-13
- Subjects:
- calcium-calmodulin-dependent protein kinase type 2 -- diabetes mellitus -- HDAC4 -- heart failure
Blood -- Circulation -- Periodicals
Cardiovascular system -- Periodicals
Cardiology -- Periodicals
Heart -- Diseases -- Periodicals
Blood Circulation
Cardiovascular System
Vascular Diseases
616.1 - Journal URLs:
- http://ovidsp.tx.ovid.com/sp-3.4.2a/ovidweb.cgi?&S=HFFJFPCLPODDKOLGNCALDCMCIACKAA00&Browse=Toc+Children%7cNO%7cS.sh.1384_1326796138_84.1384_1326796138_96.1384_1326796138_97%7c66%7c50 ↗
http://www.circulationaha.org ↗
http://circ.ahajournals.org/ ↗
http://journals.lww.com ↗ - DOI:
- 10.1161/CIRCULATIONAHA.117.031942 ↗
- Languages:
- English
- ISSNs:
- 0009-7322
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- Legaldeposit
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