DISC1 complexes with TRAK1 and Miro1 to modulate anterograde axonal mitochondrial trafficking

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Abstract

Disrupted-In-Schizophrenia 1 (DISC1) is a candidate risk factor for schizophrenia, bipolar disorder and severe recurrent depression. Here, we demonstrate that DISC1 associates robustly with trafficking-protein-Kinesin-binding-1 which is, in turn, known to interact with the outer mitochondrial membrane proteins Miro1/2, linking mitochondria to the kinesin motor for microtubule-based subcellular trafficking. DISC1 also associates with Miro1 and is thus a component of functional mitochondrial transport complexes. Consistent with these observations, in neuronal axons DISC1 promotes specifically anterograde mitochondrial transport. DISC1 thus participates directly in mitochondrial trafficking, which is essential for neural development and neurotransmission. Any factor affecting mitochondrial DISC1 function is hence likely to have deleterious consequences for the brain, potentially contributing to increased risk of psychiatric illness. Intriguingly, therefore, a rare putatively causal human DISC1 sequence variant, 37W, impairs the ability of DISC1 to promote anterograde mitochondrial transport. This is likely related to a number of mitochondrial abnormalities induced by expression of DISC1-37W, which redistributes mitochondrial DISC1 and enhances kinesin mitochondrial association, while also altering protein interactions within the mitochondrial transport complex.

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A syntaxin 1, Galpha(o), and N-type calcium channel complex at a presynaptic nerve terminal: analysis by quantitative immunocolocalization.

Qi Li, Anthony Lau, Terence Morris … (2004)

Presynaptic Ca(V)2.2 (N-type) calcium channels are subject to modulation by interaction with syntaxin 1 and by a syntaxin 1-sensitive Galpha(O) G-protein pathway. We used biochemical analysis of neuronal tissue lysates and a new quantitative test of colocalization by intensity correlation analysis at the giant calyx-type presynaptic terminal of the chick ciliary ganglion to explore the association of Ca(V)2.2 with syntaxin 1 and Galpha(O). Ca(V)2.2 could be localized by immunocytochemistry (antibody Ab571) in puncta on the release site aspect of the presynaptic terminal and close to synaptic vesicle clouds. Syntaxin 1 coimmunoprecipitated with Ca(V)2.2 from chick brain and chick ciliary ganglia and was widely distributed on the presynaptic terminal membrane. A fraction of the total syntaxin 1 colocalized with the Ca(V)2.2 puncta, whereas the bulk colocalized with MUNC18-1. Galpha(O,) whether in its trimeric or monomeric state, did not coimmunoprecipitate with Ca(V)2.2, MUNC18-1, or syntaxin 1. However, the G-protein exhibited a punctate staining on the calyx membrane with an intensity that varied in synchrony with that for both Ca channels and syntaxin 1 but only weakly with MUNC18-1. Thus, syntaxin 1 appears to be a component of two separate complexes at the presynaptic terminal, a minor one at the transmitter release site with Ca(V)2.2 and Galpha(O), as well as in large clusters remote from the release site with MUNC18-1. These syntaxin 1 protein complexes may play distinct roles in presynaptic biology.

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DISC1 and PDE4B are interacting genetic factors in schizophrenia that regulate cAMP signaling.

Sheila Christie, Priscila C. L. B. Camargo, Douglas Blackwood … (2005)

The disrupted in schizophrenia 1 (DISC1) gene is a candidate susceptibility factor for schizophrenia, but its mechanistic role in the disorder is unknown. Here we report that the gene encoding phosphodiesterase 4B (PDE4B) is disrupted by a balanced translocation in a subject diagnosed with schizophrenia and a relative with chronic psychiatric illness. The PDEs inactivate adenosine 3',5'-monophosphate (cAMP), a second messenger implicated in learning, memory, and mood. We show that DISC1 interacts with the UCR2 domain of PDE4B and that elevation of cellular cAMP leads to dissociation of PDE4B from DISC1 and an increase in PDE4B activity. We propose a mechanistic model whereby DISC1 sequesters PDE4B in resting cells and releases it in an activated state in response to elevated cAMP.

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Linking neurodevelopmental and synaptic theories of mental illness through DISC1.

Nick Brandon, Akira Sawa (2011)

Recent advances in our understanding of the underlying genetic architecture of psychiatric disorders has blown away the diagnostic boundaries that are defined by currently used diagnostic manuals. The disrupted in schizophrenia 1 (DISC1) gene was originally discovered at the breakpoint of an inherited chromosomal translocation, which segregates with major mental illnesses. In addition, many biological studies have indicated a role for DISC1 in early neurodevelopment and synaptic regulation. Given that DISC1 is thought to drive a range of endophenotypes that underlie major mental conditions, elucidating the biology of DISC1 may enable the construction of new diagnostic categories for mental illnesses with a more meaningful biological foundation.

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Author and article information

Journal

Journal ID (nlm-ta): Hum Mol Genet

Journal ID (iso-abbrev): Hum. Mol. Genet

Journal ID (publisher-id): hmg

Journal ID (hwp): hmg

Title: Human Molecular Genetics

Publisher: Oxford University Press

ISSN (Print): 0964-6906

ISSN (Electronic): 1460-2083

Publication date (Print): 15 February 2014

Publication date (Electronic): 2 October 2013

Publication date PMC-release: 2 October 2013

Volume: 23

Issue: 4

Pages: 906-919

Affiliations

[1 ]University of Edinburgh Centre for Genomics and Experimental Medicine, MRC Institute of Genetics and Molecular Medicine , Crewe Road, Edinburgh EH4 2XU, UK and

[2 ]Now at Centre for Chromosome Biology, School of Natural Sciences, National University of Ireland , Galway, Ireland

Author notes

[* ]To whom correspondence should be addressed. Tel: +44 1316511044; Fax: +44 1316511059; Email: kirsty.millar@ 123456igmm.ed.ac.uk

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Publisher ID: ddt485

DOI: 10.1093/hmg/ddt485

PMC ID: 3900104

PubMed ID: 24092329

SO-VID: 022c52a1-abb0-4432-981f-bd16479508aa

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This is an Open Access article distributed under the terms of the Creative Commons Attribution License ( http://creativecommons.org/licenses/by/3.0/), which permits unrestricted reuse, distribution, and reproduction in any medium, provided the original work is properly cited.

DISC1 complexes with TRAK1 and Miro1 to modulate anterograde axonal mitochondrial trafficking

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Most cited references 33

A syntaxin 1, Galpha(o), and N-type calcium channel complex at a presynaptic nerve terminal: analysis by quantitative immunocolocalization.

DISC1 and PDE4B are interacting genetic factors in schizophrenia that regulate cAMP signaling.

Linking neurodevelopmental and synaptic theories of mental illness through DISC1.

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