Angiokine Wisp-1 is increased in myocardial infarction and regulates cardiac endothelial signaling
Lillianne H. Wright, … , Harinath Kasiganesan, Donald R. Menick
Lillianne H. Wright, … , Harinath Kasiganesan, Donald R. Menick
Published February 22, 2018
Citation Information: JCI Insight. 2018;3(4):e95824. https://doi.org/10.1172/jci.insight.95824.
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Research Article Angiogenesis Cardiology

Angiokine Wisp-1 is increased in myocardial infarction and regulates cardiac endothelial signaling

Abstract

Myocardial infarctions (MIs) cause the loss of myocytes due to lack of sufficient oxygenation and latent revascularization. Although the administration of histone deacetylase (HDAC) inhibitors reduces the size of infarctions and improves cardiac physiology in small-animal models of MI injury, the cellular targets of the HDACs, which the drugs inhibit, are largely unspecified. Here, we show that WNT-inducible secreted protein-1 (Wisp-1), a matricellular protein that promotes angiogenesis in cancers as well as cell survival in isolated cardiac myocytes and neurons, is a target of HDACs. Further, Wisp-1 transcription is regulated by HDACs and can be modified by the HDAC inhibitor, suberanilohydroxamic acid (SAHA/vorinostat), after MI injury. We observe that, at 7 days after MI, Wisp-1 is elevated 3-fold greater in the border zone of infarction in mice that experience an MI injury and are injected daily with SAHA, relative to MI alone. Additionally, human coronary artery endothelial cells (HCAECs) produce WISP-1 and are responsive to autocrine WISP-1–mediated signaling, which functionally promotes their proangiogenic behavior. Altering endogenous expression of WISP-1 in HCAECs directly impacts their network density in vitro. Therapeutic interventions after a heart attack define the extent of infarct injury, cell survival, and overall prognosis. Our studies shown here identify a potentially novel cardiac angiokine, Wisp-1, that may contribute to beneficial post-MI treatment modalities.

Authors

Lillianne H. Wright, Daniel J. Herr, Symone S. Brown, Harinath Kasiganesan, Donald R. Menick

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Figure 15

Constitutive downregulation of Wisp-1 functionally reduces endothelial cell network density.

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Constitutive downregulation of Wisp-1 functionally reduces endothelial c...
(A) HCAECs were transduced with lentiviral particles containing short hairpin–nontargeting, scramble control plasmids (sh-Ctrl), or Wisp-1 knockdown plasmids (sh-Wisp-1). (B) Clones with the most robust suppression of Wisp-1 were used to assess network density abilities. Thirty thousand cells from each experimental group were seeded in triplicate in 48-well plates on growth factor–reduced Matrigel. In parallel, cells were also treated with TNF-α (10 ng/ml). Density of network branching were determined by software analyses of images (5/well) after 8 hours. Graphs show branching density determined by software analyses. A is an analysis of Western blots from the same experimental group, repeated 3 times. B experiments were performed in triplicate with an n = 15 per group (average density of 5 photographs per group). Results depicted as mean ± SEM of AUs *P ≤ 0.05. P values obtained by 1-way ANOVA with Bonferroni’s post test.