Human Umbilical Cord Mesenchymal Stem Cells Modulate Cytokine Secretion of CD4+ T Cell in Systemic Lupus Erythematosus by Inhibiting HSP90AA1 in the Glucose‐Activated PI3K‐AKT Pathway
Lu Jin, Meng Ding, Shaoxin Cui, Lin Yang, Jingjing He, Xiaoping Wang, Fei Chang, Jingjing Yu, Yiming Yang, Hongtao Jin, Min Shi, Jun Ma, Aijing Liu

TL;DR
Human umbilical cord stem cells reduce inflammation in lupus by inhibiting a key protein in a glucose-related pathway in immune cells.
Contribution
This study reveals that hUC-MSCs treat lupus by suppressing HSP90AA1 in the glucose-driven PI3K-AKT pathway in CD4+ T cells.
Findings
hUC-MSCs reduced glucose metabolism and pro-inflammatory cytokines in SLE CD4+ T cells.
Inhibition of HSP90AA1 in the PI3K-AKT pathway was linked to the anti-inflammatory effects of hUC-MSCs.
Animal experiments confirmed reduced glucose metabolism and inflammation with hUC-MSC treatment.
Abstract
Treatment with human umbilical cord mesenchymal stem cells (hUC‐MSCs) attenuated the clinical manifestations of systemic lupus erythematosus (SLE). We investigated the metabolic mechanism whereby hUC‐MSCs modify CD4+ T cell cytokine secretion in lupus. The study enrolled 30 untreated lupus patients and 20 sex, age, and body mass index matched healthy controls (HCs). CD4+ T cells were isolated by magnetic sorting, and stimulated with anti‐CD3/CD28. The hUC‐MSCs treatment (MSCT) groups were coculturing hUC‐MSCs to CD4+ T cells from moderate and severe SLE (SLE‐MS) groups for 72 h at ratios of 1:25 (T1), 1:10 (T2), and 1:5 (T3). Cytokine concentration and proliferation of the CD4+ T cells were measured by Luminex liquid chip assay and cell counting kit‐8, respectively. Glucose metabolic capacity was measured by Seahorse real‐time metabolic analysis. The role of hUC‐MSCs on cytokine…
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Taxonomy
TopicsMesenchymal stem cell research · Immune Cell Function and Interaction · Cytomegalovirus and herpesvirus research
