Your search keyword '"van Beuningen SFB"' showing total 4 results

1. TRIM46 Organizes Microtubule Fasciculation in the Axon Initial Segment.

Author

Harterink M, Vocking K, Pan X, Soriano Jerez EM, Slenders L, Fréal A, Tas RP, van de Wetering WJ, Timmer K, Motshagen J, van Beuningen SFB, Kapitein LC, Geerts WJC, Post JA, and Hoogenraad CC

Subjects

Animals, Cell Polarity physiology, Cells, Cultured, Cytoskeleton metabolism, Female, Hippocampus cytology, Hippocampus metabolism, Male, Neurons cytology, Rats, Tripartite Motif Proteins genetics, Axon Fasciculation physiology, Axon Initial Segment metabolism, Microtubules metabolism, Neurons metabolism, Tripartite Motif Proteins metabolism

Abstract

Selective cargo transport into axons and dendrites over the microtubule network is essential for neuron polarization. The axon initial segment (AIS) separates the axon from the somatodendritic compartment and controls the microtubule-dependent transport into the axon. Interestingly, the AIS has a characteristic microtubule organization; it contains bundles of closely spaced microtubules with electron dense cross-bridges, referred to as microtubule fascicles. The microtubule binding protein TRIM46 localizes to the AIS and when overexpressed in non-neuronal cells forms microtubule arrays that closely resemble AIS fascicles in neurons. However, the precise role of TRIM46 in microtubule fasciculation in neurons has not been studied. Here we developed a novel correlative light and electron microscopy approach to study AIS microtubule organization. We show that in cultured rat hippocampal neurons of both sexes, TRIM46 levels steadily increase at the AIS during early neuronal differentiation and at the same time closely spaced microtubules form, whereas the fasciculated microtubules appear at later developmental stages. Moreover, we localized TRIM46 to the electron dense cross-bridges and show that depletion of TRIM46 causes loss of cross-bridges and increased microtubule spacing. These data indicate that TRIM46 has an essential role in organizing microtubule fascicles in the AIS. SIGNIFICANCE STATEMENT The axon initial segment (AIS) is a specialized region at the proximal axon where the action potential is initiated. In addition the AIS separates the axon from the somatodendritic compartment, where it controls protein transport to establish and maintain neuron polarity. Cargo vesicles destined for the axon recognize specialized microtubule tracks that enter the AIS. Interestingly the microtubules entering the AIS form crosslinked bundles, called microtubule fascicules. Recently we found that the microtubule-binding protein TRIM46 localizes to the AIS, where it may organize the AIS microtubules. In the present study we developed a novel correlative light and electron microscopy approach to study the AIS microtubules during neuron development and identified an essential role for TRIM46 in microtubule fasciculation., (Copyright © 2019 the authors.)

Published

2019

2. TRIM46 Is Required for Microtubule Fasciculation In Vivo But Not Axon Specification or Axon Initial Segment Formation.

Author

Melton, Allison J., Palfini, Victoria L., Yuki Ogawa, Oses Prieto, Juan A., Vainshtein, Anna, Burlingame, Alma L., Peles, Elior, and Rasband, Matthew N.

Subjects

TRIM proteins, KNOCKOUT mice, ACTION potentials, NERVOUS system, MICROTUBULE-associated proteins

Abstract

Vertebrate nervous systems use the axon initial segment (AIS) to initiate action potentials and maintain neuronal polarity. The microtubule-associated protein tripartite motif containing 46 (TRIM46) was reported to regulate axon specification, AIS assembly, and neuronal polarity through the bundling, or fasciculation, of microtubules in the proximal axon. However, these claims are based on TRIM46 knockdown in cultured neurons. To investigate TRIM46 function in vivo, we examined male and female TRIM46 knock-out mice. Contrary to previous reports, we find that TRIM46 is dispensable for axon specification and AIS formation. TRIM46 knock-out mice are viable, have normal behavior, and have normal brain structure. Thus, TRIM46 is not required for AIS formation, axon specification, or nervous system function. However, we confirm that TRIM46 is required for microtubule fasciculation. We also show TRIM46 enrichment in the first ~100 µm of axon occurs independently of ankyrinG (AnkG) in vivo, although AnkG is required to restrict TRIM46 only to the AIS. Our results highlight the need for further investigation of the mechanisms by which the AIS and microtubules interact to shape neuronal structure and function. [ABSTRACT FROM AUTHOR]

Published

2024

3. The Axon Initial Segment Plays a Dynamic Role in Peripheral Motor Neuron Synapse Regeneration following Injury.

Author

Adler, Joy

Subjects

MOTOR neurons, AXONS, NERVE grafting, NERVOUS system regeneration, PERIPHERAL nervous system, SYNAPSES

Abstract

The article presents the discussion on determining the regenerative ability of PNS neurons following injury. Topics include having limited ability to regenerate, axons of the peripheral nervous system (PNS) die back and can then reform in response to injury; and somatic nervous system being a branch of the PNS containing two primary neuron types such as sensory and motor neurons.

Published

2023

4. The Type 2 Diabetes Factor Methylglyoxal Mediates Axon Initial Segment Shortening and Alters Neuronal Function at the Cellular and Network Levels.

Author

Griggs, Ryan B., Nguyen, Duc V. M., Yermakov, Leonid M., Jaber, Jeneane M., Shelby, Jennae N., Steinbrunner, Josef K., Miller, John A., Gonzalez-Islas, Carlos, Wenner, Peter, and Keiichiro Susuki

Published

2021