Your search keyword '"Xi Zhang, Claire"' showing total 2 results

1. Synaptotagmin-11 Inhibits Synaptic Vesicle Endocytosis via Endophilin A1.

Author

Yalong Wang, Ying Zhu, Wanru Li, Shuxin Yan, Chao Li, Kunpeng Ma, Meiqin Hu, Cuilian Du, Lei Fu, Jianyuan Sun, and Xi Zhang, Claire

Subjects

*ENDOCYTOSIS, *SYNAPTIC vesicles, *PEPTIDES, *BRAIN diseases, *AMINO acids, *NEURAL transmission

Abstract

Synaptic vesicle (SV) endocytosis is a critical and well-regulated process for the maintenance of neurotransmission. We previously reported that synaptotagmin-11 (Syt11), an essential non-Ca21-binding Syt associated with brain diseases, inhibits neuronal endocytosis (Wang et al., 2016). Here, we found that Syt11 deficiency caused accelerated SV endocytosis and vesicle recycling under sustained stimulation and led to the abnormal membrane partition of synaptic proteins in mouse hippocampal boutons of either sex. Furthermore, our study revealed that Syt11 has direct but Ca2+-independent binding with endophilin A1 (EndoA1), a membrane curvature sensor and endocytic protein recruiter, with high affinity. EndoA1-knockdown significantly reversed Syt11-KO phenotype, identifying EndoA1 as a main inhibitory target of Syt11 during SV endocytosis. The N-terminus of EndoA1 and the C2B domain of Syt11 were responsible for this interaction. A peptide (amino acids 314-336) derived from the Syt11 C2B efficiently blocked Syt11-EndoA1 binding both in vitro and in vivo. Application of this peptide inhibited SV endocytosis in WT hippocampal neurons but not in EndoA1-knockdown neurons. Moreover, intracellular application of this peptide in mouse calyx of Held terminals of either sex effectively hampered both fast and slow SV endocytosis at physiological temperature. We thus propose that Syt11 ensures the precision of protein retrieval during SV endocytosis by inhibiting EndoA1 function at neuronal terminals. [ABSTRACT FROM AUTHOR]

Published

2023

2. Synaptotagmin‐11 regulates the functions of caveolae and responds to mechanical stimuli in astrocytes.

Author

Yan, Shuxin, Wang, Yalong, Zhang, Yujia, Wang, Le, Zhao, Xiaofang, Du, Cuilian, Gao, Pei, Yan, Feng, Liu, Fengwei, Gong, Xiaoli, Guan, Yuan, Cui, Xiuyu, Wang, Xiaomin, and Xi Zhang, Claire

Abstract

Caveolae play crucial roles in intracellular membrane trafficking and mechanosensation. In this study, we report that synaptotagmin‐11 (Syt11), a synaptotagmin isoform associated with Parkinson's disease and schizophrenia, regulates both caveolae‐mediated endocytosis and the caveolar response to mechanical stimuli in astrocytes. Syt11‐knockout (KO) accelerated caveolae‐mediated endocytosis. Interestingly, the caveolar structures on the cell surface were markedly fewer in the absence of Syt11. Caveolar disassembly in response to hypoosmotic stimuli and astrocyte swelling were both impaired in Syt11‐KO astrocytes. Live imaging revealed that Syt11 left caveolar structures before cavin1 during hypoosmotic stress and returned earlier than cavin1 after isoosmotic recovery. Chronic hypoosmotic stress led to proteasome‐mediated Syt11 degradation. In addition, Syt11‐KO increased the turnover of cavin1 and EH domain‐containing protein 2 (EHD2), accompanied by compromised membrane integrity, suggesting a mechanoprotective role of Syt11. Direct interactions between Syt11 and cavin1 and EHD2, but not caveolin‐1, are found. Altogether, we propose that Syt11 stabilizes caveolar structures on the cell surface of astrocytes and regulates caveolar functions under physiological and pathological conditions through cavin1 and EHD2. [ABSTRACT FROM AUTHOR]

Published

2020