GLUT-1 changes in paediatric Huntington disease brain cortex and fibroblasts: an observational case-control study

Antonella Tramutola; Hannah S Bakels; Federica Perrone; Michela Di Nottia; Tommaso Mazza; Maria Pia Abruzzese; Martina Zoccola; Sara Pagnotta; Rosalba Carrozzo; Susanne T de Bot; Marzia Perluigi; Willeke M C van Roon-Mom; Ferdinando Squitieri

doi:10.1016/j.ebiom.2023.104849

GLUT-1 changes in paediatric Huntington disease brain cortex and fibroblasts: an observational case-control study

EBioMedicine. 2023 Nov:97:104849. doi: 10.1016/j.ebiom.2023.104849. Epub 2023 Oct 26.

Affiliations

¹ Department of Biochemical Sciences, Sapienza University of Rome, Rome 00185, Italy.
² Department of Neurology, Leiden University Medical Centre, ZA Leiden 2311, the Netherlands.
³ Huntington and Rare Diseases Unit, IRCCS Casa Sollievo della Sofferenza (CSS) Research Hospital, San Giovanni Rotondo 71013, Italy.
⁴ Unit of Cellular Biology and Mitochondrial Diseases, IRCCS Bambino Gesú Children's Hospital, Rome 00146, Italy.
⁵ Bioinformatics Unit, IRCCS Casa Sollievo della Sofferenza (CSS) Research Hospital, San Giovanni Rotondo 71013, Italy.
⁶ Department of Human Genetics, Leiden University Medical Centre, ZA Leiden 2311, the Netherlands.
⁷ Huntington and Rare Diseases Unit, IRCCS Casa Sollievo della Sofferenza (CSS) Research Hospital, San Giovanni Rotondo 71013, Italy; Centre for Rare Neurological Diseases (CMRN), Italian League for Research on Huntington (LIRH) Foundation, Viale di Villa Massimo 4, Rome 00161, Italy. Electronic address: ferdinando.squitieri@lirh.it.

Abstract

Background: Paediatric Huntington disease with highly expanded mutations (HE-PHD; >80 CAG repeats) presents atypically, compared to adult-onset Huntington disease (AOHD), with neurodevelopmental delay, epilepsy, abnormal brain glucose metabolism, early striatal damage, and reduced lifespan. Since genetic GLUT-1 deficiency syndrome shows a symptom spectrum similar to HE-PHD, we investigated the potential role of the two main glucose transporters, GLUT-1 and GLUT-3, in HE-PHD.

Methods: We compared GLUT-1 and GLUT-3 protein expression in HE-PHD, juvenile-onset (JOHD), and AOHD brains (n = 2; n = 3; n = 6) and periphery (n = 3; n = 2; n = 2) versus healthy adult controls (n = 6; n = 6). We also investigated mitochondrial complexes and hexokinase-II protein expression.

Findings: GLUT-1 and GLUT-3 expression were significantly lower in HE-PHD frontal cortex (p = 0.009, 95% [CI 13.4, 14.7]; p = 0.017, 95% [CI 14.2, 14.5]) versus controls. In fibroblasts, GLUT-1 and GLUT-3 expression were lower compared to controls (p < 0.0001, 95% [CI 0.91, 1.09]; p = 0.046, 95% [CI 0.93, 1.07]). In the frontal cortex, this occurred without evidence of extensive neuronal degeneration. Patients with HE-PHD had deregulated mitochondrial complex expression, particularly complexes II-III, levels of which were lower in frontal cortex versus controls (p = 0.027, 95% [CI 17.1, 17.6]; p = 0.002, 95% CI [16.6, 16.9]) and patients with AOHD (p = 0.052, 95% [CI 17.0, 17.6]; p = 0.002, 95% [CI 16.6, 16.7]). Hexokinase-II expression was also lower in HE-PHD frontal cortex and striatum versus controls (p = 0.010, 95% [CI 17.8, 18.2]; p = 0.045, 95% [CI 18.6, 18.7]) and in frontal cortex versus patients with AOHD (p = 0.013, 95% [CI 17.7, 18.1]). Expression JOHD levels were consistently different to those of HE-PHD but similar to those of AOHD.

Interpretation: Our data suggest a dysfunctional hypometabolic state occurring specifically in paediatric Huntington disease brains.

Funding: '5 × 1000' Personal Income Tax donation to LIRH Foundation; Italian Ministry of HealthRC2301MH04 and RF-2016-02364123 to CSS.

Keywords: Brain dysfunction; Fibroblasts; Frontal cortex; Glucose metabolism; Glucose transporters; Paediatric-onset Huntington disease.

Publication types

Observational Study

MeSH terms

Adult
Brain / metabolism
Case-Control Studies
Child
Fibroblasts / metabolism
Hexokinase* / metabolism
Humans
Huntington Disease* / genetics

Substances

Hexokinase
SLC2A1 protein, human