Endophilin-A coordinates priming and fusion of neurosecretory vesicles via intersectin

Gowrisankaran, Sindhuja; Houy, Sébastien; Castillo, Johanna Guadalupe Peña del; Steubler, Vicky; Gelker, M.; Kroll, Jana; Pinheiro, Paulo S.; Schwitters, Dirk; Halbsgut, Nils; Pechstein, Arndt; Weering, Jan R.T. van; Maritzen, Tanja; Haucke, Volker; Raimundo, Nuno; Sørensen, Jakob B.; Milošević, Ira

doi:10.1038/s41467-020-14993-8

Cited by 30 publications

(24 citation statements)

References 80 publications

(143 reference statements)

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“…Endophilin A1 to A3 being simple proteins binding to membranes via their N-BAR domains and to PRM-containing proteins through their SH3 domains, they are unlikely to be only functioning in FEME. Consistently, they have been involved in other cellular processes such as CME, some type of autophagy [115][116][117], as well as exocytosis of neurosecretory vesicles [146][147][148]. There are also probably important functional differences between the A1, A2 and A3 subtypes, as suggested by the recent finding that Endophilin A3, but not A2, controls the Clathrin-independent and Dynamin-independent uptake of CD166, induced upon extracellular clustering by Galectin-8 [145].…”

Section: Discussionmentioning

confidence: 82%

Molecular mechanism of Fast Endophilin-Mediated Endocytosis

Casamento

Boucrot

2020

Biochemical Journal

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Endocytosis mediates the cellular uptake of micronutrients and cell surface proteins. Clathrin-mediated endocytosis (CME) is the housekeeping pathway in resting cells but additional Clathrin-independent endocytic (CIE) routes, including Fast Endophilin-Mediated Endocytosis (FEME), internalize specific cargoes and support diverse cellular functions. FEME is part of the Dynamin-dependent subgroup of CIE pathways. Here, we review our current understanding of the molecular mechanism of FEME. Key steps are: (i) priming, (ii) cargo selection, (iii) membrane curvature and carrier formation, (iv) membrane scission and (v) cytosolic transport. All steps are controlled by regulatory mechanisms mediated by phosphoinositides and by kinases such as Src, LRRK2, Cdk5 and GSK3β. A key feature of FEME is that it is not constitutively active but triggered upon the stimulation of selected cell surface receptors by their ligands. In resting cells, there is a priming cycle that concentrates Endophilin into clusters on discrete locations of the plasma membrane. In the absence of receptor activation, the patches quickly abort and new cycles are initiated nearby, constantly priming the plasma membrane for FEME. Upon activation, receptors are swiftly sorted into pre-existing Endophilin clusters, which then bud to form FEME carriers within 10 s. We summarize the hallmarks of FEME and the techniques and assays required to identify it. Next, we review similarities and differences with other CIE pathways and proposed cargoes that may use FEME to enter cells. Finally, we submit pending questions and future milestones and discuss the exciting perspectives that targeting FEME may boost treatments against cancer and neurodegenerative diseases.

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Section: Discussionmentioning

confidence: 82%

Molecular mechanism of Fast Endophilin-Mediated Endocytosis

Casamento

Boucrot

2020

Biochemical Journal

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“…FEME can be blocked by inhibitors of dynamin, Rac, phosphatidylinositol-3-OH kinase, PAK1 and actin polymerization, and be activated upon CDC42 inhibition [20] . Endophilin A2 has also been found to be associated with enterovirus 71 (EV71) entry [21] , exocytosis of neurosecretory vesicles [22] , and early uptake structures that are induced by the bacterial Shiga and cholera toxins [23] .…”

Section: Introductionmentioning

confidence: 99%

Dependence of SARS-CoV-2 infection on cholesterol-rich lipid raft and endosomal acidification

Zhu

Fan

et al. 2021

Computational and Structural Biotechnology Journal

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“…The C-terminal domain robustly binds to endocytic proteins such as dynamin, intersectin, and synaptojanin [ 19 , 20 , 21 , 22 , 23 ]. Endophilins are encoded by three genes in vertebrates of which endophilin A1 is exclusively expressed in the brain [ 24 , 25 , 26 ], while endophilin A2 is ubiquitously expressed and endophilin A3 is observed in the brain and testis [ 27 ]. In the hippocampus, endophilin A family proteins are expressed in the pre- and post-synaptic terminals [ 28 , 29 ], and knockout of the individual endophilin A family does not cause any problems in life span.…”

Section: Introductionmentioning

confidence: 99%

Tat-Endophilin A1 Fusion Protein Protects Neurons from Ischemic Damage in the Gerbil Hippocampus: A Possible Mechanism of Lipid Peroxidation and Neuroinflammation Mitigation as Well as Synaptic Plasticity

Jung

Kwon

Kim

et al. 2021

Cells

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The present study explored the effects of endophilin A1 (SH3GL2) against oxidative damage brought about by H2O2 in HT22 cells and ischemic damage induced upon transient forebrain ischemia in gerbils. Tat-SH3GL2 and its control protein (Control-SH3GL2) were synthesized to deliver it to the cells by penetrating the cell membrane and blood–brain barrier. Tat-SH3GL2, but not Control-SH3GL2, could be delivered into HT22 cells in a concentration- and time-dependent manner and the hippocampus 8 h after treatment in gerbils. Tat-SH3GL2 was stably present in HT22 cells and degraded with time, by 36 h post treatment. Pre-incubation with Tat-SH3GL2, but not Control-SH3GL2, significantly ameliorated H2O2-induced cell death, DNA fragmentation, and reactive oxygen species formation. SH3GL2 immunoreactivity was decreased in the gerbil hippocampal CA1 region with time after ischemia, but it was maintained in the other regions after ischemia. Tat-SH3GL2 treatment in gerbils appreciably improved ischemia-induced hyperactivity 1 day after ischemia and the percentage of NeuN-immunoreactive surviving cells increased 4 days after ischemia. In addition, Tat-SH3GL2 treatment in gerbils alleviated the increase in lipid peroxidation as assessed by the levels of malondialdehyde and 8-iso-prostaglandin F2α and in pro-inflammatory cytokines such as tumor necrosis factor-α, interleukin-1β, and interleukin-6; while the reduction of protein levels in markers for synaptic plasticity, such as postsynaptic density 95, synaptophysin, and synaptosome associated protein 25 after transient forebrain ischemia was also observed. These results suggest that Tat-SH3GL2 protects neurons from oxidative and ischemic damage by reducing lipid peroxidation and inflammation and improving synaptic plasticity after ischemia.

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Endophilin-A coordinates priming and fusion of neurosecretory vesicles via intersectin

Cited by 30 publications

References 80 publications

Molecular mechanism of Fast Endophilin-Mediated Endocytosis

Molecular mechanism of Fast Endophilin-Mediated Endocytosis

Dependence of SARS-CoV-2 infection on cholesterol-rich lipid raft and endosomal acidification

Tat-Endophilin A1 Fusion Protein Protects Neurons from Ischemic Damage in the Gerbil Hippocampus: A Possible Mechanism of Lipid Peroxidation and Neuroinflammation Mitigation as Well as Synaptic Plasticity

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