Exosomes from hypoxic ADSCs ameliorate neuronal damage post spinal cord injury through circ-Wdfy3 delivery and inhibition of ferroptosis.

Exosomes generated from adipose-derived mesenchymal stem cells (Exos), and in particular hypoxia-pretreated ADSCs (HExos), possess therapeutic properties that promote spinal cord repair following spinal cord injury (SCI). Nevertheless, the regulatory mechanisms through which HExos exert their effects remain unclear. Here, next-generation sequencing (NGS) was utilized to examine abnormal circRNA expression comparing HExos to Exos. Bioinformatics analysis and RNA pulldown assays together with luciferase reporter assays were applied to determine interactions among miRNAs, mRNAs and circRNAs. ELISA and immunofluorescence staining were used to examine inflammatory cytokine levels, apoptosis and ROS deposition in LPS-treated HT-22 cells, respectively. The therapeutic effects of Exos and HExos on a mouse model of SCI were analyzed by immunohistochemistry and immunofluorescence staining. Our findings confirmed that HExos have more significant therapeutic influences on decreasing ROS and inflammatory cytokine levels post-SCI than Exos. NGS revealed that circ-Wdfy3 expression levels were significantly higher in HExos than Exos. Downregulation of circ-Wdfy3 led to a decrease in HExo-induced therapeutic effects on spinal cord repair post-SCI, indicating that circ-Wdfy3 has a critical role in the regulation of HExo-mediated protection against SCI. Our bioinformatics, RNA pulldown and luciferase reporter data demonstrated that GPX4 and miR-423-3p were downstream targets of circ-Wdfy3. GPX4 downregulation or miR-423-3p overexpression reversed the protective effects of circ-Wdfy3 on LPS-treated HT-22 cells. Furthermore, overexpression of circ-Wdfy3 led to an in increase in the Exo-induced therapeutic effects on spinal cord repair post-SCI through the inhibition of ferroptosis. circ-WDfy3-overexpressing Exos promote spinal cord repair post-SCI through mediation of ferroptosis via the miR-138-5p/GPX4 pathway.

Shao M ，Ye S ，Chen Y ，Yu C ，Zhu W ... -  《-》

Exosomes from Hypoxic Pretreatment ADSCs Ameliorate Cardiac Damage Post-MI via Activated circ-Stt3b/miR-15a-5p/GPX4 Signaling and Decreased Ferroptosis.

Accumulation studies confirmed that oxidative stress caused by ischemia after myocardial infarction (MI) is an important cause of ventricular remodeling. Exosome secretion through hypoxic pretreatment adipose-derived mesenchymal stem cells (ADSCs) ameliorates myocardial damaging post-MI. However, if ADSCs exosome can improve the microenvironment and ameliorate cardiac damage post-MI still unknown. Next-generation sequencing (NGS) was used to study abnormally expressed circRNAs in hypoxic pretreatment ADSC exosomes (HExos) and untreated ADSC exosomes (Exos). Bioinformatics and luciferase reporting were used to elucidate interaction correlation related to circRNA, mRNA, and miRNA. HL-1 cells were used to analyze the reactive oxygen species (ROS) and apoptosis under hypoxic conditions using immunofluorescence and flow cytometry. An MI mouse model was constructed and the therapeutic effect of Exos was determined using immunohistochemistry, immunofluorescence, and ELISA. The results showed that HExos had a more pronounced treatment effect than ADSC Exos on cardiac damage amelioration after MI. NGS showed that circ-Stt3b plays a role in HExo-mediated cardiac damage repair after MI. Overexpression of circ-Stt3b decreased apoptosis, ROS level, and inflammatory factor expression in HL-1 cells under hypoxic conditions. Bioinformatics and luciferase reporting data validated miR-15a-5p and GPX4 as downstream circ-Stt3b targets. GPX4 downregulation or miR-15a-5p overexpression reversed protective effect regarding circ-Stt3b upon HL-1 cells after exposure to a hypoxic microenvironment. Overexpression of circ-Stt3b increased the treatment effect of ASDSC Exos on cardiac damage amelioration after MI. Taken together, the study results demonstrated that Exos from hypoxic pretreatment ADSCs ameliorate cardiac damage post-MI through circ-Stt3b/miR-15a-5p/GPX4 signaling activation and decreased ferroptosis.

Liu J ，Wang Z ，Lin A ，Zhang N ... -  《-》

Exosomes from Long Noncoding RNA-Gm37494-ADSCs Repair Spinal Cord Injury via Shifting Microglial M1/M2 Polarization.

Shao M ，Jin M ，Xu S ，Zheng C ，Zhu W ，Ma X ，Lv F ... -  《-》

Exosomes from ADSCs ameliorate nerve damage in the hippocampus caused by post traumatic brain injury via the delivery of circ-Scmh1 promoting microglial M2 polarization.

Traumatic brain injury (TBI) is an urgent global health issue. Neuroinflammation, due partially to microglia, can worsen or even cause neuropsychiatric disorders after a TBI. An increasing number of studies have found that adipose-derived stem cell (ADSC) derived exosomes can alleviate many diseases by delivering non-coding RNAs including circRNA and miRNAs, but the mechanism of action remains unclear. In the present investigation, we produced a TBI mouse model and isolated exosomes from their ADSCs before and after an hypoxic pretreatment. We then used next generation sequencing (NGS) to identify differentially expressed circRNAs and luciferase report assays to determine the relationship between the different noncoding RNAs (miRNA, circRNA and mRNA). The results show that we successfully isolated ADSCs which possessed a multidirectional differentiation potential. We then isolated exosomes from untreated ADSCs (Exos) and from hypoxia pretreated ADSCs (HExos). The HExos significantly decreased hippocampal nerve injury after TBI by decreasing M1 microglia mediated inflammatory cytokine expression and caused recovery of cognitive function. NGS data revealed that abnormal circ-Scmh1 expression plays a role in HExo mediated brain tissue preservation after TBI. Furthermore, luciferase report analysis found that miR-154-5p and STAT6 were the targets for circ-Scmh1. Interestingly, miR-154-5p overexpression or STAT6 inhibition reversed the circ-Scmh1 induced M2 microglial polarization. Overexpression of circ-Scmh1 increased the therapeutic effect of Exo on hippocampal nerve injury after TBI by promotion of M2 microglial polarization and decreased inflammatory induced hippocampal nerve injury. Taken together, we found that exosomes from ADSCs ameliorate nerve damage in the hippocampus post TBI through the delivery of circ-Scmh1 and the promotion of microglial M2 polarization.

Chen S ，Wang X ，Qian Z ，Wang M ，Zhang F ，Zeng T ，Li L ，Gao L ... -  《-》

circ-Erbb2ip from adipose-derived mesenchymal stem cell-derived exosomes promotes wound healing in diabetic mice by inducing the miR-670-5p/Nrf1 axis.

To investigate the mechanism of exosomes (Exo) secretion by hypoxic pretreated adipose-derived mesenchymal stem cells (ADSCs) promoting skin wound healing in diabetic (DM) mice. High-throughput sequencing was used to investigate abnormal expression of circRNA in hypoxic pretreatment ADSCs exosome (HExo) and ADSCs exosome (Exo). Bioinformatics analysis and luciferase reporting analysis were used to clarify the interacted relationship among circRNA, miRNA and mRNA. EPCs cells were employ to analysis the ROS, inflammatory cytokines expression, angiogenic differentiation function under hypoxic condition by using immunofluorescence, ELISA detection and tube forming experiment. DM ulceration mice model were constructed and the therapeutic effect of Exo were detected using immunohistochemistry, immunofluorescence. The result show that HExo have more treatment effect than Exo in promotes cutaneous wound healing of DM mice. High-throughput sequencing found that circ-Erbb2ip play a role in HExo mediated tissues repair. Downregulation circ-Erbb2ip decreased the therapeutic effect of HExo to wound healing in diabetic mice. Bioinformatics analysis and luciferase reporting analysis confirmed that both miR-670-5p and Nrf1 were downstream targets of circ-Erbb2ip. Downregulation of Nrf1 or overexpression of miR-670-5p reversed the protective effect of circ-Erbb2ip to EPCs after exposure to high glucose microenvironment. Upregulation circ-Erbb2ip increased the therapeutic effect of Exo to wound healing in diabetic mice by increased angiogenesis and decreased ROS, inflammatory cytokines expression. In conclusion, ADSC-Exos containing circ-Erbb2ip promotes wound healing by targeting miR-670-5p/Nrf1 pathway, and their effects in promoting soft tissue wound healing warrant further study.

Tang W ，Du X ，Wu Z ，Nie Z ，Yu C ，Gao Y ... -  《-》