Laura Behrendt scite author profile

Energy-coupling factor (ECF) transporters are a huge group of micronutrient importers in prokaryotes. They are composed of a substrate-specific transmembrane protein (S component) and a module consisting of a moderately conserved transmembrane protein (T component) and two ABC ATPase domains (A components). Modules of A and T units may be dedicated to a specific S component or shared by many different S units in an organism. The mode of subunit interactions in ECF transporters is largely unknown. BioMNY, the focus of the present study, is a biotin transporter with a dedicated AT module. It consists of the S unit BioY, the A unit BioM and the T unit BioN. Like all T units, BioN contains two three-amino-acid signatures with a central Arg residue in a cytoplasmic helical region. Our previous work had demonstrated a central role of the two motifs in T units for stability and function of BioMNY and other ECF transporters. Here we show by site-specific crosslinking of pairs of mono-cysteine variants that the Ala-Arg-Ser and Ala-Arg-Gly signatures in BioN are coupling sites to the BioM ATPases. Analysis of 64 BioN-BioM pairs uncovered interactions of both signatures predominantly with a segment of ∼13 amino acid residues C-terminal of the Q loop of BioM. Our results further demonstrate that portions of all BioN variants with single Cys residues in the two signatures are crosslinked to homodimers. This finding may point to a dimeric architecture of the T unit in BioMNY complexes.

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A disease causing ATLASTIN 3 mutation affects multiple endoplasmic reticulum-related pathways

Behrendt

Kurth

Kaether

2019

Cell. Mol. Life Sci.

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Atlastins (ATLs) are membrane-bound GTPases involved in shaping of the endoplasmic reticulum (ER). Mutations in ATL1 and ATL3 cause spastic paraplegia and hereditary sensory neuropathy. We here show that the sensory neuropathy causing ATL3 Y192C mutation reduces the complexity of the tubular ER-network. ATL3 Y192C delays ER-export by reducing the number of ER exit sites, reduces autophagy, fragments the Golgi and causes malformation of the nucleus. In cultured primary neurons, ATL3 Y192C does not localize to the growing axon, resulting in axon growth deficits. Patient-derived fibroblasts possess a tubular ER with reduced complexity and have a reduced number of autophagosomes. The data suggest that the disease-causing ATL3 Y192C mutation affects multiple ER-related pathways, possibly as a consequence of the distorted ER morphology.Electronic supplementary materialThe online version of this article (10.1007/s00018-019-03010-x) contains supplementary material, which is available to authorized users.

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Disease-causing mutated ATLASTIN 3 is excluded from distal axons and reduces axonal autophagy

Behrendt

Hoischen

Kaether

2021

Neurobiology of Disease

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The nuclear pore proteins Nup88/214 and T-cell acute lymphatic leukemia–associated NUP214 fusion proteins regulate Notch signaling

Kindermann

Valkova

Krämer

et al. 2019

Journal of Biological Chemistry

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Atlastine — wie defekte Netzwerke Neuropathien verursachen

Behrendt

Kaether

2020

Biospektrum

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The Atlastins (ATLs) mesh the tubular net that constitutes the peripheral parts of the endoplasmic reticulum (ER), the largest membranous organelle of the cell. ATLs form three way junctions, the knots of the ER network. Humans possess three ATLs, ATL1-3. Mutations in ATL1 and ATL3 can cause axonopathies in sensory or motor neurons, leading to hereditary spastic paraplegia or hereditary sensory and autonomous neuropathy. Here we discuss the knowns and unknows of ATL function in health and disease.

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Laura Behrendt

Interactions among the A and T Units of an ECF-Type Biotin Transporter Analyzed by Site-Specific Crosslinking

A disease causing ATLASTIN 3 mutation affects multiple endoplasmic reticulum-related pathways

Disease-causing mutated ATLASTIN 3 is excluded from distal axons and reduces axonal autophagy

The nuclear pore proteins Nup88/214 and T-cell acute lymphatic leukemia–associated NUP214 fusion proteins regulate Notch signaling

Atlastine — wie defekte Netzwerke Neuropathien verursachen

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