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IL-10 provides cardioprotection in diabetic myocardial infarction via upregulation of Heme clearance pathways
Rajesh Gupta, Lijun Liu, Xiaolu Zhang, Xiaoming Fan, Prasanna Krishnamurthy, Suresh Verma, Jörn Tongers, Sol Misener, Nikita Ashcherkin, Hongliu Sun, Jiang Tian, Raj Kishore
Rajesh Gupta, Lijun Liu, Xiaolu Zhang, Xiaoming Fan, Prasanna Krishnamurthy, Suresh Verma, Jörn Tongers, Sol Misener, Nikita Ashcherkin, Hongliu Sun, Jiang Tian, Raj Kishore
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Research Article Cardiology Therapeutics

IL-10 provides cardioprotection in diabetic myocardial infarction via upregulation of Heme clearance pathways

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Abstract

Diabetes is a risk factor for myocardial infarction, and outcomes after myocardial infarction are worse among diabetics compared with nondiabetics. Diabetes is associated with impaired Heme clearance. Here, we determined whether heme toxicity and impaired heme clearance contribute to diabetic myocardial infarction injury and assessed IL-10 as a therapeutic agent for diabetic myocardial infarction. Plasma-free hemoglobin was significantly elevated in diabetic mice compared with nondiabetic mice after myocardial infarction. Infarct size had strong correlation to the level of plasma-free hemoglobin. Hemoglobin and reactive iron deposition within the infarct zone were also demonstrated in diabetic MI. IL-10 significantly reduced infarct size and improved cardiac function in diabetic mice. Moreover, IL-10 improved capillary density, reduced apoptosis, and decreased inflammation in the border zone of the infarcted hearts, findings that were partially inhibited by Tin protoporphyrin (a heme oxygenase-1 inhibitor). IL-10 upregulated CD163, the hemoglobin:haptoglobin scavenger receptor, and heme oxygenase-1 in THP-1–derived and primary human CD14+ macrophages. IL-10 significantly protected against ischemic injury when HL-1 cardiomyocytes were cotreated with hemoglobin. Together, our findings indicate that IL-10 is cardioprotective in diabetic myocardial infarction via upregulation of heme clearance pathways. These findings implicate heme clearance as a potentially novel therapeutic direction for diabetic myocardial infarction.

Authors

Rajesh Gupta, Lijun Liu, Xiaolu Zhang, Xiaoming Fan, Prasanna Krishnamurthy, Suresh Verma, Jörn Tongers, Sol Misener, Nikita Ashcherkin, Hongliu Sun, Jiang Tian, Raj Kishore

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Figure 1

Characterization of toxicity of free hemoglobin in diabetic MI.

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Characterization of toxicity of free hemoglobin in diabetic MI.
Control ...
Control and STZ-induced diabetic mice were subjected to MI by ligation of left anterior descending coronary artery. (A) Plasma-free hemoglobin was increased in DM mice at 24 hours after MI. n = 5–6 per group, 1-way ANOVA, followed by Tukey’s test. *P < 0.05 vs. DM sham; #P < 0.01 vs. Con MI. (B) TTC staining of heart sections at 24 hours after MI shows larger infarct size in DM mice. Left: representative images; Right: percentage of LV infarction area to LV total area. n = 6 per group, t test, *P < 0.05 vs. Con. (C and D) Hemoglobin protein fluorescence staining and Okajima’s staining show hemoglobin deposits in the heart 72 hours after MI. (E) Accumulation of iron in the infarct zones in the ferric (Fe3+) oxidation state as determined by Prussian blue staining. (F) Localization of apoptosis in Con MI and DM MI determined by immunohistochemical analysis of paraffin-embedded heart section using cleaved caspase-3 Ab. (G) The extent of 4-hydroxynonenal immune reactivity as shown in brown in the infarct zones. Scale bars: 50 μm. Arrowheads indicate the positive reactions.

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