Literature DB >> 22805874

Homeostatic adaptations in brain energy metabolism in mouse models of Huntington disease.

Ivan Tkac1, Pierre-Gilles Henry, Lori Zacharoff, Michael Wedel, Wuming Gong, Dinesh K Deelchand, Tongbin Li, Janet M Dubinsky.   

Abstract

Impairment of energy metabolism is a key feature of Huntington disease (HD). Recently, we reported longitudinal neurochemical changes in R6/2 mice measured by in-vivo proton magnetic resonance spectroscopy ((1)H MRS; Zacharoff et al, 2012). Here, we present similar (1)H MRS measurements at an early stage in the milder Q111 mouse model. In addition, we measured the concentration of ATP and inorganic phosphate (P(i)), key energy metabolites not accessible with (1)H MRS, using (31)P MRS both in Q111 and in R6/2 mice. Significant changes in striatal creatine and phosphocreatine were observed in Q111 mice at 6 weeks relative to control, and these changes were largely reversed at 13 weeks. No significant change was detected in ATP concentration, in either HD mouse, compared with control. Calculated values of [ADP], phosphorylation potential, relative rate of ATP synthase (v/V(max)(ATP)), and relative rate of creatine kinase (v/V(max)(CK)) were calculated from the measured data. ADP concentration and v/V(max)(ATP) were increased in Q111 mice at 6 weeks, and returned close to normal at 13 weeks. In contrast, these parameters were normal in R6/2 mice. These results suggest that early changes in brain energy metabolism are followed by compensatory shifts to maintain energetic homeostasis from early ages through manifest disease.

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Year:  2012        PMID: 22805874      PMCID: PMC3493992          DOI: 10.1038/jcbfm.2012.104

Source DB:  PubMed          Journal:  J Cereb Blood Flow Metab        ISSN: 0271-678X            Impact factor:   6.200


  42 in total

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Authors:  Anthone W Dunah; Hyunkyung Jeong; April Griffin; Yong-Man Kim; David G Standaert; Steven M Hersch; M Maral Mouradian; Anne B Young; Naoko Tanese; Dimitri Krainc
Journal:  Science       Date:  2002-05-02       Impact factor: 47.728

2.  Accumulation of mutant huntingtin fragments in aggresome-like inclusion bodies as a result of insufficient protein degradation.

Authors:  S Waelter; A Boeddrich; R Lurz; E Scherzinger; G Lueder; H Lehrach; E E Wanker
Journal:  Mol Biol Cell       Date:  2001-05       Impact factor: 4.138

3.  Early phenotypes that presage late-onset neurodegenerative disease allow testing of modifiers in Hdh CAG knock-in mice.

Authors:  Vanessa C Wheeler; Claire-Anne Gutekunst; Vladimir Vrbanac; Lori-Anne Lebel; Gabriele Schilling; Steven Hersch; Robert M Friedlander; James F Gusella; Jean-Paul Vonsattel; David R Borchelt; Marcy E MacDonald
Journal:  Hum Mol Genet       Date:  2002-03-15       Impact factor: 6.150

4.  Inhibition of polyglutamine aggregation in R6/2 HD brain slices-complex dose-response profiles.

Authors:  D L Smith; R Portier; B Woodman; E Hockly; A Mahal; W E Klunk; X J Li; E Wanker; K D Murray; G P Bates
Journal:  Neurobiol Dis       Date:  2001-12       Impact factor: 5.996

5.  Cytosolic phosphorylation potential.

Authors:  R L Veech; J W Lawson; N W Cornell; H A Krebs
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6.  Specific progressive cAMP reduction implicates energy deficit in presymptomatic Huntington's disease knock-in mice.

Authors:  Silvia Gines; Ihn Sik Seong; Elisa Fossale; Elena Ivanova; Flavia Trettel; James F Gusella; Vanessa C Wheeler; Francesca Persichetti; Marcy E MacDonald
Journal:  Hum Mol Genet       Date:  2003-03-01       Impact factor: 6.150

7.  Long glutamine tracts cause nuclear localization of a novel form of huntingtin in medium spiny striatal neurons in HdhQ92 and HdhQ111 knock-in mice.

Authors:  V C Wheeler; J K White; C A Gutekunst; V Vrbanac; M Weaver; X J Li; S H Li; H Yi; J P Vonsattel; J F Gusella; S Hersch; W Auerbach; A L Joyner; M E MacDonald
Journal:  Hum Mol Genet       Date:  2000-03-01       Impact factor: 6.150

8.  Abnormal response to cortical activation in early stages of Huntington disease.

Authors:  Fanny Mochel; Tra-My N'Guyen; Dinesh Deelchand; Daisy Rinaldi; Romain Valabregue; Claire Wary; Pierre G Carlier; Alexandra Durr; Pierre-Gilles Henry
Journal:  Mov Disord       Date:  2012-04-19       Impact factor: 10.338

9.  Relationship between intracellular pH and energy metabolism in dog brain as measured by 31P-NMR.

Authors:  S Nioka; B Chance; M Hilberman; H V Subramanian; J S Leigh; R L Veech; R E Forster
Journal:  J Appl Physiol (1985)       Date:  1987-05

10.  Cerebral metabolism in hyper- and hypocarbia: 31P and 1H nuclear magnetic resonance studies.

Authors:  O A Petroff; J W Prichard; K L Behar; D L Rothman; J R Alger; R G Shulman
Journal:  Neurology       Date:  1985-12       Impact factor: 9.910
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  19 in total

1.  Quantification of in vivo ³¹P NMR brain spectra using LCModel.

Authors:  Dinesh Kumar Deelchand; Tra-My Nguyen; Xiao-Hong Zhu; Fanny Mochel; Pierre-Gilles Henry
Journal:  NMR Biomed       Date:  2015-04-14       Impact factor: 4.044

2.  Evolution of the neurochemical profiles in the G93A-SOD1 mouse model of amyotrophic lateral sclerosis.

Authors:  Hongxia Lei; Elisabeth Dirren; Carole Poitry-Yamate; Bernard L Schneider; Rolf Gruetter; Patrick Aebischer
Journal:  J Cereb Blood Flow Metab       Date:  2018-02-05       Impact factor: 6.200

Review 3.  Mutant Huntingtin and Elusive Defects in Oxidative Metabolism and Mitochondrial Calcium Handling.

Authors:  Nickolay Brustovetsky
Journal:  Mol Neurobiol       Date:  2015-05-05       Impact factor: 5.590

4.  Rapid and simultaneous measurement of phosphorus metabolite pool size ratio and reaction kinetics of enzymes in vivo.

Authors:  Sang-Young Kim; Wei Chen; Dost Ongur; Fei Du
Journal:  J Magn Reson Imaging       Date:  2017-05-08       Impact factor: 4.813

5.  In vivo neurometabolic profiling in patients with spinocerebellar ataxia types 1, 2, 3, and 7.

Authors:  Isaac M Adanyeguh; Pierre-Gilles Henry; Tra M Nguyen; Daisy Rinaldi; Celine Jauffret; Romain Valabregue; Uzay E Emir; Dinesh K Deelchand; Alexis Brice; Lynn E Eberly; Gülin Öz; Alexandra Durr; Fanny Mochel
Journal:  Mov Disord       Date:  2015-03-15       Impact factor: 10.338

6.  Early white matter abnormalities, progressive brain pathology and motor deficits in a novel knock-in mouse model of Huntington's disease.

Authors:  Jing Jin; Qi Peng; Zhipeng Hou; Mali Jiang; Xin Wang; Abraham J Langseth; Michael Tao; Peter B Barker; Susumu Mori; Dwight E Bergles; Christopher A Ross; Peter J Detloff; Jiangyang Zhang; Wenzhen Duan
Journal:  Hum Mol Genet       Date:  2015-01-21       Impact factor: 6.150

7.  CK2 alpha prime and alpha-synuclein pathogenic functional interaction mediates synaptic dysregulation in huntington's disease.

Authors:  Dahyun Yu; Nicole Zarate; Angel White; De'jah Coates; Wei Tsai; Carmen Nanclares; Francesco Cuccu; Johnny S Yue; Taylor G Brown; Rachel H Mansky; Kevin Jiang; Hyuck Kim; Tessa Nichols-Meade; Sarah N Larson; Katherine Gundry; Ying Zhang; Cristina Tomas-Zapico; Jose J Lucas; Michael Benneyworth; Gülin Öz; Marija Cvetanovic; Alfonso Araque; Rocio Gomez-Pastor
Journal:  Acta Neuropathol Commun       Date:  2022-06-03       Impact factor: 7.578

8.  Oxygen consumption deficit in Huntington disease mouse brain under metabolic stress.

Authors:  Song Lou; Victoria C Lepak; Lynn E Eberly; Brian Roth; Weina Cui; Xiao-Hong Zhu; Gülin Öz; Janet M Dubinsky
Journal:  Hum Mol Genet       Date:  2016-05-18       Impact factor: 6.150

9.  1H and 31P magnetic resonance spectroscopy in a rat model of chronic hepatic encephalopathy: in vivo longitudinal measurements of brain energy metabolism.

Authors:  Veronika Rackayova; Olivier Braissant; Valérie A McLin; Corina Berset; Bernard Lanz; Cristina Cudalbu
Journal:  Metab Brain Dis       Date:  2015-08-09       Impact factor: 3.584

10.  Impaired response of cerebral oxygen metabolism to visual stimulation in Huntington's disease.

Authors:  Peter Klinkmueller; Martin Kronenbuerger; Xinyuan Miao; Jee Bang; Kia E Ultz; Adrian Paez; Xiaoyu Zhang; Wenzhen Duan; Russell L Margolis; Peter Cm van Zijl; Christopher A Ross; Jun Hua
Journal:  J Cereb Blood Flow Metab       Date:  2020-08-17       Impact factor: 6.200
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