Literature DB >> 33130575

Fronto-striatal circuits for cognitive flexibility in far from onset Huntington's disease: evidence from the Young Adult Study.

Christelle Langley1, Sarah Gregory2, Katie Osborne-Crowley2,3, Claire O'Callaghan4,5, Paul Zeun2, Jessica Lowe2, Eileanoir B Johnson2, Marina Papoutsi2, Rachael I Scahill2, Geraint Rees6, Sarah J Tabrizi2, Trevor W Robbins7, Barbara Jacquelyn Sahakian4.   

Abstract

OBJECTIVES: Cognitive flexibility, which is key for adaptive decision-making, engages prefrontal cortex (PFC)-striatal circuitry and is impaired in both manifest and premanifest Huntington's disease (pre-HD). The aim of this study was to examine cognitive flexibility in a far from onset pre-HD cohort to determine whether an early impairment exists and if so, whether fronto-striatal circuits were associated with this deficit.
METHODS: In the present study, we examined performance of 51 pre-HD participants (mean age=29.22 (SD=5.71) years) from the HD Young Adult Study cohort and 53 controls matched for age, sex and IQ, on the Cambridge Neuropsychological Test Automated Battery (CANTAB) Intra-Extra Dimensional Set-Shift (IED) task. This cohort is unique as it is the furthest from disease onset comprehensively studied to date (mean years=23.89 (SD=5.96) years). The IED task measures visual discrimination learning, cognitive flexibility and specifically attentional set-shifting. We used resting-state functional MRI to examine whether the functional connectivity between specific fronto-striatal circuits was dysfunctional in pre-HD, compared with controls, and whether these circuits were associated with performance on the critical extradimensional shift stage.
RESULTS: Our results demonstrated that the CANTAB IED task detects a mild early impairment in cognitive flexibility in a pre-HD group far from onset. Attentional set-shifting was significantly related to functional connectivity between the ventrolateral PFC and ventral striatum in healthy controls and to functional connectivity between the dorsolateral PFC and caudate in pre-HD participants.
CONCLUSION: We postulate that this incipient impairment of cognitive flexibility may be associated with intrinsically abnormal functional connectivity of fronto-striatal circuitry in pre-HD. © Author(s) (or their employer(s)) 2021. Re-use permitted under CC BY. Published by BMJ.

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Year:  2020        PMID: 33130575      PMCID: PMC7841479          DOI: 10.1136/jnnp-2020-324104

Source DB:  PubMed          Journal:  J Neurol Neurosurg Psychiatry        ISSN: 0022-3050            Impact factor:   13.654


  38 in total

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Authors:  Bradley R Buchsbaum; Stephanie Greer; Wei-Li Chang; Karen Faith Berman
Journal:  Hum Brain Mapp       Date:  2005-05       Impact factor: 5.038

Review 2.  CAG-repeat length and the age of onset in Huntington disease (HD): a review and validation study of statistical approaches.

Authors:  Douglas R Langbehn; Michael R Hayden; Jane S Paulsen
Journal:  Am J Med Genet B Neuropsychiatr Genet       Date:  2010-03-05       Impact factor: 3.568

3.  Aberrant connectivity of lateral prefrontal networks in presymptomatic Huntington's disease.

Authors:  Robert Christian Wolf; Fabio Sambataro; Nenad Vasic; Carlos Schönfeldt-Lecuona; Daniel Ecker; Bernhard Landwehrmeyer
Journal:  Exp Neurol       Date:  2008-07-11       Impact factor: 5.330

4.  Corticostriatal connectivity underlies individual differences in the balance between habitual and goal-directed action control.

Authors:  Sanne de Wit; Poppy Watson; Helga A Harsay; Michael X Cohen; Irene van de Vijver; K Richard Ridderinkhof
Journal:  J Neurosci       Date:  2012-08-29       Impact factor: 6.167

Review 5.  Huntington disease: natural history, biomarkers and prospects for therapeutics.

Authors:  Christopher A Ross; Elizabeth H Aylward; Edward J Wild; Douglas R Langbehn; Jeffrey D Long; John H Warner; Rachael I Scahill; Blair R Leavitt; Julie C Stout; Jane S Paulsen; Ralf Reilmann; Paul G Unschuld; Alice Wexler; Russell L Margolis; Sarah J Tabrizi
Journal:  Nat Rev Neurol       Date:  2014-03-11       Impact factor: 42.937

6.  Biological and clinical changes in premanifest and early stage Huntington's disease in the TRACK-HD study: the 12-month longitudinal analysis.

Authors:  Sarah J Tabrizi; Rachael I Scahill; Alexandra Durr; Raymund Ac Roos; Blair R Leavitt; Rebecca Jones; G Bernhard Landwehrmeyer; Nick C Fox; Hans Johnson; Stephen L Hicks; Christopher Kennard; David Craufurd; Chris Frost; Douglas R Langbehn; Ralf Reilmann; Julie C Stout
Journal:  Lancet Neurol       Date:  2010-12-02       Impact factor: 44.182

7.  Frontal-striatal disconnection disrupts cognitive performance of the frontal-type in the rat.

Authors:  S B Dunnett; A Meldrum; J L Muir
Journal:  Neuroscience       Date:  2005-09-13       Impact factor: 3.590

8.  Differential Changes in Functional Connectivity of Striatum-Prefrontal and Striatum-Motor Circuits in Premanifest Huntington's Disease.

Authors:  Martin Kronenbuerger; Jun Hua; Jee Y A Bang; Kia E Ultz; Xinyuan Miao; Xiaoyu Zhang; James J Pekar; Peter C M van Zijl; Wenzhen Duan; Russell L Margolis; Christopher A Ross
Journal:  Neurodegener Dis       Date:  2019-08-14       Impact factor: 2.977

Review 9.  Neuroimaging in Huntington's disease.

Authors:  Flavia Niccolini; Marios Politis
Journal:  World J Radiol       Date:  2014-06-28

10.  Fronto-striatal organization: Defining functional and microstructural substrates of behavioural flexibility.

Authors:  Laurel S Morris; Prantik Kundu; Nicholas Dowell; Daisy J Mechelmans; Pauline Favre; Michael A Irvine; Trevor W Robbins; Nathaniel Daw; Edward T Bullmore; Neil A Harrison; Valerie Voon
Journal:  Cortex       Date:  2015-11-18       Impact factor: 4.027
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  5 in total

1.  Brain Functional Connectivity Mapping of Behavioral Flexibility in Rhesus Monkeys.

Authors:  Kathleen A Grant; Natali Newman; Colton Lynn; Conor Davenport; Steven Gonzales; Verginia C Cuzon Carlson; Christopher D Kroenke
Journal:  J Neurosci       Date:  2022-05-12       Impact factor: 6.709

2.  Cortical Features in Child and Adolescent Carriers of Mutant Huntingtin (mHTT).

Authors:  Erin E Reasoner; Ellen van der Plas; Douglas R Langbehn; Amy L Conrad; Timothy R Koscik; Eric A Epping; Vincent A Magnotta; Peggy C Nopoulos
Journal:  J Huntingtons Dis       Date:  2022

Review 3.  Huntington's disease mouse models: unraveling the pathology caused by CAG repeat expansion.

Authors:  Julia Kaye; Terry Reisine; Steve Finkbeiner
Journal:  Fac Rev       Date:  2021-10-21

Review 4.  Disordered Decision Making: A Cognitive Framework for Apathy and Impulsivity in Huntington's Disease.

Authors:  Lee-Anne Morris; Claire O'Callaghan; Campbell Le Heron
Journal:  Mov Disord       Date:  2022-05-02       Impact factor: 9.698

5.  Behavioral features in child and adolescent huntingtin gene-mutation carriers.

Authors:  Erin E Reasoner; Ellen van der Plas; Hend M Al-Kaylani; Douglas R Langbehn; Amy L Conrad; Jordan L Schultz; Eric A Epping; Vincent A Magnotta; Peggy C Nopoulos
Journal:  Brain Behav       Date:  2022-05-23       Impact factor: 3.405
  5 in total

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