Fibroblast Growth Factor 2-engaged cell spheroid for stem cell therapy: role of Interleukin 8 in the immune-modulatory effectiveness in the critical limb ischemia model
Eunyeong Kim, Yunji Joo, Jong-Wan Kim, Sang-Heon Kim

TL;DR
This study shows that interleukin-8 (IL8) plays a key role in tissue regeneration and immune modulation during stem cell therapy for critical limb ischemia.
Contribution
The study identifies IL8 as a critical paracrine factor in stem cell spheroids for tissue regeneration and immune modulation in a CLI model.
Findings
FECS-Ad injection increased limb salvage and promoted M2 macrophage polarization.
IL8 knockdown reduced tissue regeneration and increased apoptosis in ischemic tissues.
IL8 was shown to protect muscle fibers and modulate inflammation in CLI.
Abstract
Stem cell therapy has emerged as a promising approach for treating critical limb ischemia (CLI), a condition caused by atherosclerosis that results in reduced blood flow and limb necrosis. However, the underlying therapeutic mechanisms involving factors secreted from stem cells are still in the early stages of exploration. This study focuses on investigating the tissue regenerative effects of interleukin-8 (IL8) secreted from cell spheroids. Human adipose-derived stem cells (hASCs) were cultured on FGF2-tethered surfaces to form spheroid (FECS-Ad). A murine CLI model was established through femoral artery dissection, followed by the injection of various treatments, including PBS, hASC, FECS-Ad, IL8-silenced FECS-Ad, and recombinant IL8. Comparative analyses revealed that FECS-Ad injection resulted in a higher percentage of salvaged limbs, but these effects were attenuated when IL8 was…
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Taxonomy
TopicsMuscle Physiology and Disorders · Mesenchymal stem cell research · Exercise and Physiological Responses
