Literature DB >> 23732472

Mitochondrial trafficking in neurons.

Thomas L Schwarz1.   

Abstract

Neurons, perhaps more than any other cell type, depend on mitochondrial trafficking for their survival. Recent studies have elucidated a motor/adaptor complex on the mitochondrial surface that is shared between neurons and other animal cells. In addition to kinesin and dynein, this complex contains the proteins Miro (also called RhoT1/2) and milton (also called TRAK1/2) and is responsible for much, although not necessarily all, mitochondrial movement. Elucidation of the complex has permitted inroads for understanding how this movement is regulated by a variety of intracellular signals, although many mysteries remain. Regulating mitochondrial movement can match energy demand to energy supply throughout the extraordinary architecture of these cells and can control the clearance and replenishing of mitochondria in the periphery. Because the extended axons of neurons contain uniformly polarized microtubules, they have been useful for studying mitochondrial motility in conjunction with biochemical assays in many cell types.

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Year:  2013        PMID: 23732472      PMCID: PMC3660831          DOI: 10.1101/cshperspect.a011304

Source DB:  PubMed          Journal:  Cold Spring Harb Perspect Biol        ISSN: 1943-0264            Impact factor:   10.005


  115 in total

1.  The atypical Rho GTPases Miro-1 and Miro-2 have essential roles in mitochondrial trafficking.

Authors:  Sa Fransson; Aino Ruusala; Pontus Aspenström
Journal:  Biochem Biophys Res Commun       Date:  2006-04-03       Impact factor: 3.575

2.  TRAK/Milton motor-adaptor proteins steer mitochondrial trafficking to axons and dendrites.

Authors:  Myrrhe van Spronsen; Marina Mikhaylova; Joanna Lipka; Max A Schlager; Dave J van den Heuvel; Marijn Kuijpers; Phebe S Wulf; Nanda Keijzer; Jeroen Demmers; Lukas C Kapitein; Dick Jaarsma; Hans C Gerritsen; Anna Akhmanova; Casper C Hoogenraad
Journal:  Neuron       Date:  2013-02-06       Impact factor: 17.173

3.  Effects of cytosolic ATP on spontaneous and triggered Ca2+-induced Ca2+ release in permeabilised rat ventricular myocytes.

Authors:  Z Yang; D S Steele
Journal:  J Physiol       Date:  2000-02-15       Impact factor: 5.182

4.  Quantitative imaging of energy expenditure in human brain.

Authors:  Xiao-Hong Zhu; Hongyan Qiao; Fei Du; Qiang Xiong; Xiao Liu; Xiaoliang Zhang; Kamil Ugurbil; Wei Chen
Journal:  Neuroimage       Date:  2012-02-17       Impact factor: 6.556

5.  Drosophila Miro is required for both anterograde and retrograde axonal mitochondrial transport.

Authors:  Gary J Russo; Kathryn Louie; Andrea Wellington; Greg T Macleod; Fangle Hu; Sarvari Panchumarthi; Konrad E Zinsmaier
Journal:  J Neurosci       Date:  2009-04-29       Impact factor: 6.167

6.  Imaging axonal transport of mitochondria in vivo.

Authors:  Thomas Misgeld; Martin Kerschensteiner; Florence M Bareyre; Robert W Burgess; Jeff W Lichtman
Journal:  Nat Methods       Date:  2007-06-10       Impact factor: 28.547

7.  A Drosophila kinesin required for synaptic bouton formation and synaptic vesicle transport.

Authors:  Eunju Pack-Chung; Peri T Kurshan; Dion K Dickman; Thomas L Schwarz
Journal:  Nat Neurosci       Date:  2007-07-22       Impact factor: 24.884

8.  The Eutherian Armcx genes regulate mitochondrial trafficking in neurons and interact with Miro and Trak2.

Authors:  Guillermo López-Doménech; Román Serrat; Serena Mirra; Salvatore D'Aniello; Ildiko Somorjai; Alba Abad; Nathalia Vitureira; Elena García-Arumí; María Teresa Alonso; Macarena Rodriguez-Prados; Ferran Burgaya; Antoni L Andreu; Javier García-Sancho; Ramón Trullas; Jordi Garcia-Fernàndez; Eduardo Soriano
Journal:  Nat Commun       Date:  2012-05-08       Impact factor: 14.919

9.  Mitochondrial quality control mediated by PINK1 and Parkin: links to parkinsonism.

Authors:  Derek Narendra; John E Walker; Richard Youle
Journal:  Cold Spring Harb Perspect Biol       Date:  2012-11-01       Impact factor: 10.005

10.  Parkinson's disease-associated kinase PINK1 regulates Miro protein level and axonal transport of mitochondria.

Authors:  Song Liu; Tomoyo Sawada; Seongsoo Lee; Wendou Yu; George Silverio; Philomena Alapatt; Ivan Millan; Alice Shen; William Saxton; Tomoko Kanao; Ryosuke Takahashi; Nobutaka Hattori; Yuzuru Imai; Bingwei Lu
Journal:  PLoS Genet       Date:  2012-03-01       Impact factor: 5.917
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  215 in total

1.  The Upshot of LRRK2 Inhibition to Parkinson's Disease Paradigm.

Authors:  A R Esteves; M G-Fernandes; D Santos; C Januário; S M Cardoso
Journal:  Mol Neurobiol       Date:  2014-11-15       Impact factor: 5.590

Review 2.  Inter and Intracellular mitochondrial trafficking in health and disease.

Authors:  Santhanam Shanmughapriya; Dianne Langford; Kalimuthusamy Natarajaseenivasan
Journal:  Ageing Res Rev       Date:  2020-07-23       Impact factor: 10.895

Review 3.  Protective effects of phenelzine administration on synaptic and non-synaptic cortical mitochondrial function and lipid peroxidation-mediated oxidative damage following TBI in young adult male rats.

Authors:  Rachel L Hill; Indrapal N Singh; Juan A Wang; Jacqueline R Kulbe; Edward D Hall
Journal:  Exp Neurol       Date:  2020-04-20       Impact factor: 5.330

Review 4.  Mitochondria in complex psychiatric disorders: Lessons from mouse models of 22q11.2 deletion syndrome: Hemizygous deletion of several mitochondrial genes in the 22q11.2 genomic region can lead to symptoms associated with neuropsychiatric disease.

Authors:  Prakash Devaraju; Stanislav S Zakharenko
Journal:  Bioessays       Date:  2017-01-03       Impact factor: 4.345

5.  Mitochondrial immobilization mediated by syntaphilin facilitates survival of demyelinated axons.

Authors:  Nobuhiko Ohno; Hao Chiang; Don J Mahad; Grahame J Kidd; LiPing Liu; Richard M Ransohoff; Zu-Hang Sheng; Hitoshi Komuro; Bruce D Trapp
Journal:  Proc Natl Acad Sci U S A       Date:  2014-06-23       Impact factor: 11.205

6.  Distribution and apoptotic function of outer membrane proteins depend on mitochondrial fusion.

Authors:  David Weaver; Verónica Eisner; Xingguo Liu; Péter Várnai; László Hunyady; Atan Gross; György Hajnóczky
Journal:  Mol Cell       Date:  2014-05-08       Impact factor: 17.970

7.  Analyzing Mitochondrial Transport and Morphology in Human Induced Pluripotent Stem Cell-Derived Neurons in Hereditary Spastic Paraplegia.

Authors:  Yongchao Mou; Sukhada Mukte; Eric Chai; Joshua Dein; Xue-Jun Li
Journal:  J Vis Exp       Date:  2020-02-09       Impact factor: 1.355

8.  Dyslipidemia impairs mitochondrial trafficking and function in sensory neurons.

Authors:  Amy E Rumora; Stephen I Lentz; Lucy M Hinder; Samuel W Jackson; Andrew Valesano; Gideon E Levinson; Eva L Feldman
Journal:  FASEB J       Date:  2017-09-13       Impact factor: 5.191

9.  Presynaptic loss of dynamin-related protein 1 impairs synaptic vesicle release and recycling at the mouse calyx of Held.

Authors:  Mahendra Singh; Henry Denny; Christina Smith; Jorge Granados; Robert Renden
Journal:  J Physiol       Date:  2018-11-10       Impact factor: 5.182

10.  Distinct Splice Variants of Dynamin-related Protein 1 Differentially Utilize Mitochondrial Fission Factor as an Effector of Cooperative GTPase Activity.

Authors:  Patrick J Macdonald; Christopher A Francy; Natalia Stepanyants; Lance Lehman; Anthony Baglio; Jason A Mears; Xin Qi; Rajesh Ramachandran
Journal:  J Biol Chem       Date:  2015-11-17       Impact factor: 5.157
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