Biological abnormalities of peripheral A2A receptors in a large representation of polyglutamine disorders and Huntington's disease stages

K. Varani; A. C. Bachoud-Lévi; C. Mariotti; A. Tarditi; M. P. Abbracchio; V. Gasperi; P. A. Borea; G. Dolbeau; C. Gellera; A. Solari; A. Rosser; J. Naji; O. Handley; M. Maccarrone; Marc Peschanski; S. DiDonato; E. Cattaneo

doi:10.1016/j.nbd.2007.03.011

Biological abnormalities of peripheral A2A receptors in a large representation of polyglutamine disorders and Huntington's disease stages

K. Varani, A. C. Bachoud-Lévi, C. Mariotti, A. Tarditi, M. P. Abbracchio, V. Gasperi, P. A. Borea, G. Dolbeau, C. Gellera, A. Solari, A. Rosser, J. Naji, O. Handley, M. Maccarrone, Marc Peschanski, S. DiDonato, E. Cattaneo

Research output: Contribution to journal › Article › peer-review

Abstract

Huntington's disease is one of a group of hereditary neurodegenerative diseases characterized by a glutamine expansion (polyQ) in proteins which are expressed in various cell populations. In agreement with this widespread distribution, we have previously shown that A_2A receptor signaling is affected in mouse brain as well as in peripheral blood cells from a small cohort of HD patients. Here we analyzed a total of 252 subjects, including 126 HD gene-positive individuals, from different clinical sites. Consistent with our previous data we show that A_2A receptor B_max values are robustly increased at all HD stages as well as in 32 pre-symptomatic subjects. We report that the same abnormality is present also in other polyQ but not in non-polyQ inherited neurological disorders. Finally, we demonstrate that the same peripheral cells exhibit an altered membrane fluidity, a finding that may explain the observed change in receptor density. We argue that the observed alteration in lymphocytes reflects the presence of the mutant protein, and we suggest that the measure of the A_2A receptor binding activity might be of potential interest for a peripheral assessment of chemicals capable of interfering with the immediate toxic effects of the mutation.

Original language	English
Pages (from-to)	36-43
Number of pages	8
Journal	Neurobiology of Disease
Volume	27
Issue number	1
DOIs	https://doi.org/10.1016/j.nbd.2007.03.011
Publication status	Published - Jul 2007

Keywords

A adenosine receptors
Biomarkers
FRDA
Friedreich ataxia
HD
Huntington's disease
SCA1
SCA2
Spinocerebellar ataxia 1
Spinocerebellar ataxia 2
Triplet repeat disorders

ASJC Scopus subject areas

Neurology

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10.1016/j.nbd.2007.03.011

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Varani, K., Bachoud-Lévi, A. C., Mariotti, C., Tarditi, A., Abbracchio, M. P., Gasperi, V., Borea, P. A., Dolbeau, G., Gellera, C., Solari, A., Rosser, A., Naji, J., Handley, O., Maccarrone, M., Peschanski, M., DiDonato, S., & Cattaneo, E. (2007). Biological abnormalities of peripheral A2A receptors in a large representation of polyglutamine disorders and Huntington's disease stages. Neurobiology of Disease, 27(1), 36-43. https://doi.org/10.1016/j.nbd.2007.03.011

Varani, K, Bachoud-Lévi, AC, Mariotti, C, Tarditi, A, Abbracchio, MP, Gasperi, V, Borea, PA, Dolbeau, G, Gellera, C , Solari, A, Rosser, A, Naji, J, Handley, O, Maccarrone, M, Peschanski, M, DiDonato, S & Cattaneo, E 2007, 'Biological abnormalities of peripheral A2A receptors in a large representation of polyglutamine disorders and Huntington's disease stages', Neurobiology of Disease, vol. 27, no. 1, pp. 36-43. https://doi.org/10.1016/j.nbd.2007.03.011

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abstract = "Huntington's disease is one of a group of hereditary neurodegenerative diseases characterized by a glutamine expansion (polyQ) in proteins which are expressed in various cell populations. In agreement with this widespread distribution, we have previously shown that A2A receptor signaling is affected in mouse brain as well as in peripheral blood cells from a small cohort of HD patients. Here we analyzed a total of 252 subjects, including 126 HD gene-positive individuals, from different clinical sites. Consistent with our previous data we show that A2A receptor Bmax values are robustly increased at all HD stages as well as in 32 pre-symptomatic subjects. We report that the same abnormality is present also in other polyQ but not in non-polyQ inherited neurological disorders. Finally, we demonstrate that the same peripheral cells exhibit an altered membrane fluidity, a finding that may explain the observed change in receptor density. We argue that the observed alteration in lymphocytes reflects the presence of the mutant protein, and we suggest that the measure of the A2A receptor binding activity might be of potential interest for a peripheral assessment of chemicals capable of interfering with the immediate toxic effects of the mutation.",

keywords = "A adenosine receptors, Biomarkers, FRDA, Friedreich ataxia, HD, Huntington's disease, SCA1, SCA2, Spinocerebellar ataxia 1, Spinocerebellar ataxia 2, Triplet repeat disorders",

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AU - Varani, K.

AU - Bachoud-Lévi, A. C.

AU - Mariotti, C.

AU - Tarditi, A.

AU - Abbracchio, M. P.

AU - Gasperi, V.

AU - Borea, P. A.

AU - Dolbeau, G.

AU - Gellera, C.

AU - Solari, A.

AU - Rosser, A.

AU - Naji, J.

AU - Handley, O.

AU - Maccarrone, M.

AU - Peschanski, Marc

AU - DiDonato, S.

AU - Cattaneo, E.

PY - 2007/7

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N2 - Huntington's disease is one of a group of hereditary neurodegenerative diseases characterized by a glutamine expansion (polyQ) in proteins which are expressed in various cell populations. In agreement with this widespread distribution, we have previously shown that A2A receptor signaling is affected in mouse brain as well as in peripheral blood cells from a small cohort of HD patients. Here we analyzed a total of 252 subjects, including 126 HD gene-positive individuals, from different clinical sites. Consistent with our previous data we show that A2A receptor Bmax values are robustly increased at all HD stages as well as in 32 pre-symptomatic subjects. We report that the same abnormality is present also in other polyQ but not in non-polyQ inherited neurological disorders. Finally, we demonstrate that the same peripheral cells exhibit an altered membrane fluidity, a finding that may explain the observed change in receptor density. We argue that the observed alteration in lymphocytes reflects the presence of the mutant protein, and we suggest that the measure of the A2A receptor binding activity might be of potential interest for a peripheral assessment of chemicals capable of interfering with the immediate toxic effects of the mutation.

AB - Huntington's disease is one of a group of hereditary neurodegenerative diseases characterized by a glutamine expansion (polyQ) in proteins which are expressed in various cell populations. In agreement with this widespread distribution, we have previously shown that A2A receptor signaling is affected in mouse brain as well as in peripheral blood cells from a small cohort of HD patients. Here we analyzed a total of 252 subjects, including 126 HD gene-positive individuals, from different clinical sites. Consistent with our previous data we show that A2A receptor Bmax values are robustly increased at all HD stages as well as in 32 pre-symptomatic subjects. We report that the same abnormality is present also in other polyQ but not in non-polyQ inherited neurological disorders. Finally, we demonstrate that the same peripheral cells exhibit an altered membrane fluidity, a finding that may explain the observed change in receptor density. We argue that the observed alteration in lymphocytes reflects the presence of the mutant protein, and we suggest that the measure of the A2A receptor binding activity might be of potential interest for a peripheral assessment of chemicals capable of interfering with the immediate toxic effects of the mutation.

KW - A adenosine receptors

KW - Biomarkers

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KW - Friedreich ataxia

KW - HD

KW - Huntington's disease

KW - SCA1

KW - SCA2

KW - Spinocerebellar ataxia 1

KW - Spinocerebellar ataxia 2

KW - Triplet repeat disorders

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Biological abnormalities of peripheral A2A receptors in a large representation of polyglutamine disorders and Huntington's disease stages

Abstract

Keywords

ASJC Scopus subject areas

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