Nele Burdina scite author profile

The mitochondrial intermembrane space protein AIFM1 has been reported to mediate the import of MIA40/CHCHD4, which forms the import receptor in the mitochondrial disulfide relay. Here, we demonstrate that AIFM1 and MIA40/CHCHD4 cooperate beyond this MIA40/CHCHD4 import. We show that AIFM1 and MIA40/CHCHD4 form a stable long‐lived complex in vitro, in different cell lines, and in tissues. In HEK293 cells lacking AIFM1, levels of MIA40 are unchanged, but the protein is present in the monomeric form. Monomeric MIA40 neither efficiently interacts with nor mediates the import of specific substrates. The import defect is especially severe for NDUFS5, a subunit of complex I of the respiratory chain. As a consequence, NDUFS5 accumulates in the cytosol and undergoes rapid proteasomal degradation. Lack of mitochondrial NDUFS5 in turn results in stalling of complex I assembly. Collectively, we demonstrate that AIFM1 serves two overlapping functions: importing MIA40/CHCHD4 and constituting an integral part of the disulfide relay that ensures efficient interaction of MIA40/CHCHD4 with specific substrates.

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Pentameric assembly of glycine receptor intracellular domains provides insights into gephyrin clustering

Macha

Gruenewald

Havarushka

et al. 2022

Preprint

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Pentameric ligand-gated ion channels represent a large family of receptors comprising an extracellular domain, four transmembrane helices and a cytosolic intracellular domain (ICD). ICDs play important roles in receptor localization and trafficking, thus regulating synaptic activity and plasticity. Glycine and GABA type A receptor ICDs bind to the scaffolding protein gephyrin, a master regulator of inhibitory synapses. Here we report the use of yeast lumazine synthase as soluble pentameric protein scaffold for the study of receptor ICDs derived from GlyR alpha1 and beta-subunits. We were able to create ICDs assemblies in a homo- (LS-betaICD) and hetero-pentameric state (LS-alpha/betaICD) and provide first-in-class structural insights on their high structural flexibility using small angle X-ray scattering. We report a high-affinity interaction between the LS-alpha/betaICD and gephyrin leading to the in vitro formation of high-molecular mega-Dalton complexes composed of three gephyrin trimers and three pentamers as basic building block. Depending on the stoichiometric ratios between gephyrin and LS-ICDs the formed complexes grow or shrink in size. In cells, LS-ICDs efficiently recruited gephyrin and were able to accumulate gephyrin at GABAergic synapses in neurons. Our findings collectively propose a new, potentially general, mechanistic concept for a gephyrin-dependent bridging of GlyRs at the inhibitory synapse.

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Improving Membrane Activity and Cargo Delivery Efficacy of a Cell-Penetrating Peptide by Loading with Carboranes

et al. 2021

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Cell-penetrating peptides (CPPs) have emerged as versatile tools to increase the intracellular accumulation of different kinds of cargoes. For an efficient cellular uptake and drug delivery, their organization into a distinct and stable secondary structure at the outer surface of the plasma membrane is a hallmark and supports optimal lipid–peptide interactions. Incorporation of hydrophobic moieties, such as carboranes (CBs), has the potential to increase the lipophilicity of peptides, and thus, to facilitate the formation of secondary structures. Herein, we present synthesis and biophysical as well as biological characterization of carborane-CPP conjugates having incorporated one or more CB clusters. Our results highlight the possibility to modulate the secondary structure of CPPs by the addition of CB’s leading to constructs with altered membrane activity and promising use in terms of nucleic acid delivery.

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Nele Burdina

AIFM1 is a component of the mitochondrial disulfide relay that drives complex I assembly through efficient import of NDUFS5

Pentameric assembly of glycine receptor intracellular domains provides insights into gephyrin clustering

Improving Membrane Activity and Cargo Delivery Efficacy of a Cell-Penetrating Peptide by Loading with Carboranes

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