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Pharmacological Elevation of Circulating Bioactive Phosphosphingolipids Enhances Myocardial Recovery After Acute Infarction. | LitMetric

AI Article Synopsis

  • Acute myocardial infarction (AMI)
  • leads to the mobilization of bone marrow-derived stem/progenitor cells (BMSPCs), a process that is not well understood but may be enhanced by the lipid sphingosine-1 phosphate (S1P).
  • Treatment with a S1P lyase inhibitor
  • (THI) after AMI increased both plasma S1P levels and the number of circulating BMSPCs, resulting in improved cardiac function and reduced scar size in mice.
  • Elevating bioactive lipid levels
  • pharmacologically after AMI could be a promising strategy to facilitate BMSPC mobilization, leading to better heart recovery and regeneration.

Article Abstract

Unlabelled: Acute myocardial infarction (AMI) triggers mobilization of bone marrow (BM)-derived stem/progenitor cells (BMSPCs) through poorly understood processes. Recently, we postulated a major role for bioactive lipids such as sphingosine-1 phosphate (S1P) in mobilization of BMSPCs into the peripheral blood (PB). We hypothesized that elevating S1P levels after AMI could augment BMSPC mobilization and enhance cardiac recovery after AMI. After AMI, elevating bioactive lipid levels was achieved by treating mice with the S1P lyase inhibitor tetrahydroxybutylimidazole (THI) for 3 days (starting at day 4 after AMI) to differentiate between stem cell mobilization and the known effects of S1P on myocardial ischemic pre- and postconditioning. Cardiac function was assessed using echocardiography, and myocardial scar size evolution was examined using cardiac magnetic resonance imaging. PB S1P and BMSPCs peaked at 5 days after AMI and returned to baseline levels within 10 days (p < .05 for 5 days vs. baseline). Elevated S1P paralleled a significant increase in circulating BMSPCs (p < .05 vs. controls). We observed a greater than twofold increase in plasma S1P and circulating BMSPCs after THI treatment. Mechanistically, enhanced BMSPC mobilization was associated with significant increases in angiogenesis, BM cell homing, cardiomyocytes, and c-Kit cell proliferation in THI-treated mice. Mice treated with THI demonstrated better recovery of cardiac functional parameters and a reduction in scar size. Pharmacological elevation of plasma bioactive lipids after AMI could contribute to BMSPC mobilization and could represent an attractive strategy for enhancing myocardial recovery and improving BMSC targeting.

Significance: Acute myocardial infarction (AMI) initiates innate immune and reparatory mechanisms through which bone marrow-derived stem/progenitor cells (BMSPCs) are mobilized toward the ischemic myocardium and contribute to myocardial regeneration. Although it is clear that the magnitude of BMSPC mobilization after AMI correlates with cardiac recovery, the molecular events driving BMSPC mobilization and homing are poorly understood. The present study confirms the role of bioactive lipids in BMSPC mobilization after AMI and proposes a new strategy that improves cardiac recovery. Inhibiting sphingosine-1 phosphate (S1P) lyase (SPL) allows for the augmentation of the plasma levels of S1P and stem cell mobilization. These findings demonstrate that early transient SPL inhibition after MI correlates with increased stem cell mobilization and their homing to the infarct border zones. Augmenting BMSPC mobilization correlated with the formation of new blood vessels and cardiomyocytes and c-Kit cell proliferation. These novel findings on the cellular level were associated with functional cardiac recovery, reduced adverse remodeling, and a decrease in scar size. Taken together, these data indicate that pharmacological elevation of bioactive lipid levels can be beneficial in the early phase after cardiac ischemic injury. These findings provide the first evidence that a carefully timed transient pharmacological upregulation of bioactive lipids after AMI could be therapeutic, because it results in significant cardiac structural and functional improvements.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC4622401PMC
http://dx.doi.org/10.5966/sctm.2014-0273DOI Listing

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