James M May1. 1. Departments of Medicine and Molecular Physiology and Biophysics, Vanderbilt University School of Medicine, Nashville, TN, 37232, USA, james.may@vanderbilt.edu.
Abstract
Vitamin C, or ascorbic acid, is important as an antioxidant and participates in numerous cellular functions. Although it circulates in plasma in micromolar concentrations, it reaches millimolar concentrations in most tissues. These high ascorbate cellular concentrations are thought to be generated and maintained by the SVCT2 (Slc23a2), a specific transporter for ascorbate. The vitamin is also readily recycled from its oxidized forms inside cells. Neurons in the central nervous system (CNS) contain some of the highest ascorbic acid concentrations of mammalian tissues. Intracellular ascorbate serves several functions in the CNS, including antioxidant protection, peptide amidation, myelin formation, synaptic potentiation, and protection against glutamate toxicity. The importance of the SVCT2 for CNS function is supported by the finding that its targeted deletion in mice causes widespread cerebral hemorrhage and death on post-natal day 1. Neuronal ascorbate content as maintained by this protein also has relevance for human disease, since ascorbate supplements decrease infarct size in ischemia-reperfusion injury models of stroke, and since ascorbate may protect neurons from the oxidant damage associated with neurodegenerative diseases such as Alzheimer's, Parkinson's, and Huntington's. The aim of this review is to assess the role of the SVCT2 in regulating neuronal ascorbate homeostasis and the extent to which ascorbate affects brain function and antioxidant defenses in the CNS.
Vitamin C, or n class="Chemical">ascorbic acid, is important as an antioxidant and participates in numerous cellular functions. Although it circulates in plasma in micromolar concentrations, it reaches millimolar concentrations in most tissues. These high ascorbate cellular concentrations are thought to be generated and maintained by the SVCT2 (Slc23a2), a specific transporter for ascorbate. The vitamin is also readily recycled from its oxidized forms inside cells. Neurons in the central nervous system (CNS) contain some of the highest ascorbic acid concentrations of mammalian tissues. Intracellular ascorbate serves several functions in the CNS, including antioxidant protection, peptide amidation, myelin formation, synaptic potentiation, and protection against glutamatetoxicity. The importance of the SVCT2 for CNS function is supported by the finding that its targeted deletion in mice causes widespread cerebral hemorrhage and death on post-natal day 1. Neuronal ascorbate content as maintained by this protein also has relevance for human disease, since ascorbate supplements decrease infarct size in ischemia-reperfusion injury models of stroke, and since ascorbate may protect neurons from the oxidant damage associated with neurodegenerative diseases such as Alzheimer's, Parkinson's, and Huntington's. The aim of this review is to assess the role of the SVCT2 in regulating neuronal ascorbate homeostasis and the extent to which ascorbate affects brain function and antioxidant defenses in the CNS.
Authors: William J Mack; J Mocco; Andrew F Ducruet; Ilya Laufer; Ryan G King; Yuan Zhang; Weijia Guo; David J Pinsky; E Sander Connolly Journal: Neurosurgery Date: 2006-08 Impact factor: 4.654
Authors: J M Villalba; A Canalejo; J C Rodríguez-Aguilera; M I Burón; D J Mooré; P Navas Journal: J Bioenerg Biomembr Date: 1993-08 Impact factor: 2.945
Authors: Douglas B Gould; F Campbell Phalan; Guido J Breedveld; Saskia E van Mil; Richard S Smith; John C Schimenti; Umberto Aguglia; Marjo S van der Knaap; Peter Heutink; Simon W M John Journal: Science Date: 2005-05-20 Impact factor: 47.728
Authors: Raymond F Burk; Joani M Christensen; Mark J Maguire; Lori M Austin; William O Whetsell; James M May; Kristina E Hill; Ford F Ebner Journal: J Nutr Date: 2006-06 Impact factor: 4.798
Authors: María De Los Angeles García; Katherine Salazar; Carola Millán; Federico Rodríguez; Hernán Montecinos; Teresa Caprile; Carmen Silva; Christian Cortes; Karin Reinicke; Juan Carlos Vera; Luis G Aguayo; Juan Olate; Benedicto Molina; Francisco Nualart Journal: Glia Date: 2005-04-01 Impact factor: 7.452
Authors: Ga Hee Mun; Myeung Ju Kim; Ju Hyun Lee; Hyun Jun Kim; Yoon Hee Chung; Young Bae Chung; Jae Seung Kang; Young Il Hwang; Seung Ha Oh; Joong-Gon Kim; Douk Ho Hwang; Dong Hoon Shin; Wang Jae Lee Journal: J Neurosci Res Date: 2006-04 Impact factor: 4.164
Authors: Bryan G Allen; Kellie L Bodeker; Mark C Smith; Varun Monga; Sonia Sandhu; Raymond Hohl; Thomas Carlisle; Heather Brown; Nancy Hollenbeck; Sandy Vollstedt; Jeremy D Greenlee; Matthew A Howard; Kranti A Mapuskar; Steven N Seyedin; Joseph M Caster; Karra A Jones; Joseph J Cullen; Daniel Berg; Brett A Wagner; Garry R Buettner; Mindi J TenNapel; Brian J Smith; Douglas R Spitz; John M Buatti Journal: Clin Cancer Res Date: 2019-08-19 Impact factor: 12.531
Authors: Anna Dondzillo; Kevin D Quinn; Charmion I Cruickshank-Quinn; Nichole Reisdorph; Tim C Lei; Achim Klug Journal: J Neurophysiol Date: 2015-07-22 Impact factor: 2.714
Authors: Galina Y Zheleznyakova; Sarah Voisin; Anton V Kiselev; Markus Sällman Almén; Miguel J Xavier; Marianna A Maretina; Lyudmila I Tishchenko; Robert Fredriksson; Vladislav S Baranov; Helgi B Schiöth Journal: Eur J Hum Genet Date: 2013-01-09 Impact factor: 4.246
Authors: Stefan W Leichtle; Anand K Sarma; Micheal Strein; Vishal Yajnik; Dennis Rivet; Adam Sima; Gretchen M Brophy Journal: Neurocrit Care Date: 2020-02 Impact factor: 3.210