Effects of human umbilical cord mesenchymal stem cells exosomes on hippocampal microglia polarization and neuronal apoptosis in depressed model mice / 中华行为医学与脑科学杂志

ABSTRACT

Objective:To investigate the effects of human umbilical cord mesenchymal stem cells exosomes (hucMSC-Exo) on depression-like behavior and polarization dynamic transition of hippocampal microglia in chronic unpredictable mild stress(CUMS) mice.Methods:The hucMSC was isolated, cultured, and the 5th generation hucMSC-Exo was extracted by ultracentrifugation and identified.Biological markers of CD9 and CD63 of hucMSC-Exo were detected by Western blot.A total of 12 SPF grade male C57BL/6J mice were randomly selected to establish depression model by CUMS method at the same time, and relevant behavioral experiments, including opening field test (OFT) and forced swimming test (FST) were used to detect changes of depression-like behavior in CUMS mice. After modeling, 12 mice were randomly divided into two groups, with 6 mice in each group. One group of mice was the exosome treatment group (CUMS+ Exo group) after stereotactic brain injection of hucMSC-Exo in the hippocampus, and the other group was the CUMS group. The expression of inflammatory signals in the hippocampus of mice in both groups were detected by micro PET/CT scanning technique. The proportion of M2-type microglia and M1-type microglia in the hippocampus of mice was detected by tissue immunofluorescence. β3-tubulin immunofluorescence staining was used to detect the length changes of neuronal axons in the depressed cell model constructed with corticosterone (CORT). EdU staining was used to detect neuronal proliferation. TUNEL staining was used to observe the apoptosis of neurons in the hippocampus of mice.Statistical analysis was conducted by GraphPad 8.0 software, and t-test was used for inter group comparison. Results:Under the electron microscope, hucMSC-Exo showed typical " double-layer cup-like" small vesicle-like changes and the particle diameter was about 100 nm.Western blot confirmed the expression of lconic proteins of CD9 and CD63. In the micro PET/CT scans, the uptake of [18F]DPA-714 in the CUMS+ Exo group was lower than that of the CUMS group, and the difference was statistically significant ((0.91±0.02)g/mL, (0.81±0.05)g/mL, t=4.54, P=0.001 1). In the opening field test, the percentage of central path length ((3.40±0.44)%, (5.17±0.90)%, t=4.33, P=0.001 5) and the time spent on the central path ((7.04±0.60)s, (10.22±1.41)s, t=6.02, P=0.000 1) in CUMS+ Exo group were higher than those in CUMS group, while the total distances of the two groups were not statistically significant ( t=0.48, P>0.05). In the forced swimming test, the immobility time in the CUMS+ Exo group was less than that in the CUMS group ((152.33±7.28) s, (133.50±4.32) s, t=5.45, P=0.000 3). In tissue immunofluorescence experiments, compared with the CUMS group, the proportion of M2-type microglia of hippocampus in the CUMS+ Exo group((0.33±0.04), (0.59±0.12), t=5.11, P=0.000 5)increased and the proportion of M1-type microglia ((0.56±0.06), (0.41±0.03), t=5.15, P=0.000 4) decreased in the CUMS+ Exo group. β3-tubulin-labeled immunofluorescence results showed an increase of neuronal axon length in the CORT+ Exo group compared with that in the CORT group((3.99±0.99) μm, (6.76±1.11) μm, t=6.10, P=0.000 1). The results of cell proliferation test showed an increase of proliferation rate in the CORT+ Exo group compared with that in the CORT group((0.74±0.07), (0.64±0.03), t=3.32, P=0.001 8). In the TUNEL staining experiment, the apoptosis rate of neurons in the hippocampal region of mice in the CUMS+ Exo group was lower than that of CUMS group ((0.24±0.04), (0.39±0.04), t=6.11, P=0.000 1). Conclusion:hucMSC-Exo can promote the conversion of M1 polarized microglia to M2 type microglia to alleviate depression-like behavior and reduce neuronal apoptosis in CUMS mice.