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H2S prevents peripheral immune cell invasion, increasing [Ca2+]i and excessive phagocytosis following hypoxia-ischemia injury in neonatal mice

Tingting Li, Xili Chu, Danqing Xin, Hongfei Ke, Shuhan Wang, Dexiang Liu, Wenqiang Chen, Zhen Wang

2021Biomedicine & Pharmacotherapy10 citationsDOIOpen Access PDF

Abstract

We previously reported that L-Cysteine, H2S donor, remarkably attenuated neuroinflammation following hypoxia-ischemia (HI) brain injury in neonatal mice. However, its anti-inflammatory mechanism for HI insult is still unknown. The study focus on the effects of L-Cysteine on immune cell populations, Ca2+ mobilization and phagocytosis after neonatal HI. We found that L-Cysteine treatment skewed CD11b+/CD45low microglia and CD11b+/CD45high brain monocytes/macrophages towards a more anti-inflammatory property 72 h after HI-injured brain. Moreover, L-Cysteine treatment reduced cerebral infiltration of CD4 T cells 7 days following HI insult. Furthermore, CD4 T cell subset analysis revealed that L-Cysteine treatment decreased Th1 and Th2 counts, while increased Th17/Th2 ratio. Moreover, L-Cysteine treatment suppressed LPS-induced cytosolic Ca2+ and LPS-stimulated phagocytosis in primary microglia. The anti-inflammatory effect of L-Cysteine was associated with improving neurobehavioral impairment following HI insult. Our results demonstrate L-Cysteine treatment suppressed the invasion of peripheral immune cells, increasing [Ca2+]i and excessive phagocytosis to improve neurobehavioral deficits following hypoxia-ischemia injury in neonatal mice by H2S release.

Topics & Concepts

MicrogliaPhagocytosisImmune systemIntegrin alpha MHypoxia (environmental)NeuroinflammationIschemiaCysteineImmunologyInflammationMedicineChemistryBiologyInternal medicineBiochemistryOxygenOrganic chemistryEnzymeHeme Oxygenase-1 and Carbon MonoxideAdenosine and Purinergic SignalingNeuroscience of respiration and sleep