Dataciencia

Colección SciELO Chile

Crosstalk between the UPR and autophagy pathway contributes to handling cellular stress in neurodegenerative disease

Indexado

WoS	WOS:000307193400011
Scopus	SCOPUS_ID:84864878269

DOI

10.4161/AUTO.20139

Año

2012

Tipo

material editorial

Citas Totales

Autores Afiliación Chile

Instituciones Chile

% Participación
Internacional

Autores
Afiliación Extranjera

Instituciones
Extranjeras

Abstract

Huntington disease (HD) is caused by an extended polyglutamine [poly(Q)] stretch in the Huntingtin (HTT) protein, and is associated with the accumulation of intracellular protein aggregates, onset of progressive chorea, psychiatric symptoms and dementia. Although the mechanism underlying the pathological effects of mutant HTT (mHTT) remains highly controversial, accumulating evidence suggest that protein-folding stress at the endoplasmic reticulum (ER) may contribute to mHTT-mediated degeneration. ER stress is alleviated by the activation of an adaptive reaction known as the unfolded protein response (UPR), whereas chronic ER stress triggers apoptosis by the same pathway. However, most of the studies linking ER stress with HD in vivo are correlative. UPR signaling is initiated by the activation of at least three distinct stress sensors located at the ER membrane known as ERN1/IRE1 alpha, EIF2AK3/PERK and ATF6. These stress sensors control the expression of specialized transcription factors that modulate the upregulation of a variety of target genes involved in folding, protein quality control, autophagy and protein synthesis.

Revista

Revista	ISSN
Autophagy	1554-8627

Métricas Externas

PlumX	Altmetric	Dimensions

Muestra métricas de impacto externas asociadas a la publicación. Para mayor detalle:

Plumx: https://plumanalytics.com/learn/about-metrics/
Altmetric: https://www.altmetric.com/about-altmetrics/what-are-altmetrics/
Dimensions: https://www.dimensions.ai/why-dimensions/

Disciplinas de Investigación

WOS
Cell Biology

Scopus
Sin Disciplinas

SciELO
Sin Disciplinas

Muestra la distribución de disciplinas para esta publicación.

Publicaciones WoS (Ediciones: ISSHP, ISTP, AHCI, SSCI, SCI), Scopus, SciELO Chile.

Colaboración Institucional

Muestra la distribución de colaboración, tanto nacional como extranjera, generada en esta publicación.

Autores - Afiliación

Ord.	Autor	Género	Institución - País
1	VIDAL-GOMEZ, RENE LUIS	Hombre	Universidad de Chile - Chile
2	HETZ-FLORES, CLAUDIO ANDRES	Hombre	Universidad de Chile - Chile Harvard University - Estados Unidos Neuroun Biomed Fdn - Chile Harvard T.H. Chan School of Public Health - Estados Unidos NeuroUnion Biomedical Foundation - Chile

Muestra la afiliación y género (detectado) para los co-autores de la publicación.

Origen de Citas Identificadas

Muestra la distribución de países cuyos autores citan a la publicación consultada.

Citas identificadas: Las citas provienen de documentos incluidos en la base de datos de DATACIENCIA

Citas Identificadas: 10.64 %
Citas No-identificadas: 89.36 %

Muestra la distribución de instituciones nacionales o extranjeras cuyos autores citan a la publicación consultada.

Citas identificadas: Las citas provienen de documentos incluidos en la base de datos de DATACIENCIA

Citas Identificadas: 10.64 %
Citas No-identificadas: 89.36 %

Financiamiento

Fuente
Fondo Nacional de Desarrollo CientÃfico y TecnolÃ³gico
CHDI Foundation
Foundation Inc.

Muestra la fuente de financiamiento declarada en la publicación.

Agradecimientos

Agradecimiento
we demonstrated that expression of report showed that manipulation of an adjustor of cellular stress in HD and FoxO1 enhances autophagy levels and Insulin signaling (i.e., IRS2) in vivo leads other protein misfolding disorders. Future reduces the levels of mHTT aggregates, to protection against HD, correlating therapeutic strategies to manipulate XBP1 providing a novel link between two major with enhanced FOXO1 activity and auto-levels may have broad beneficial conse-stress pathways. Our results are indicative phagy induction. Finally, genetic studies quences to alleviate degeneration. of a critical crosstalk between the ERN1-in C. elegans indicate that XBP1 has a XBP1 arm of the UPR and FOXO1-role in aging through the FOXO-insulin- autophagy in HD neurons (Fig. 1), IGF1 signaling pathway. Thus, FOXO This article was funded by CHDI suggesting possible therapeutic benefits transcription factors may represent an Foundation Inc. (C.H.) and FONDECYT of targeting this pathway in a disease interesting signaling intersection between no. 3100039 (R.L.V.). In addition we context. In addition to controlling auto-the UPR and autophagy. received support from FONDECYT no. phagy, FOXO1 participates in others The current evidence illuminates how 1100176, FONDAP grant no. 15010006, processes such as mitochondrial metabol-fundamental homeostatic processes such Millennium Institute No. P09-015-F, ism, oxidative stress and the insulin-IGF1 as the UPR pathway and autophagy con-Muscular Dystrophy Association, ALS pathway that may contribute to neuro-tribute to handling cellular stress and Therapy Alliance, North American Spine protective effects observed in XBP1-provides conclusive evidence in favor of Society and Alzheimer Disease Founda-deficient animals. Interestingly, a recent a novel physiological function of XBP1 as tion (C.H.).

Agradecimiento

we demonstrated that expression of report showed that manipulation of an adjustor of cellular stress in HD and FoxO1 enhances autophagy levels and Insulin signaling (i.e., IRS2) in vivo leads other protein misfolding disorders. Future reduces the levels of mHTT aggregates, to protection against HD, correlating therapeutic strategies to manipulate XBP1 providing a novel link between two major with enhanced FOXO1 activity and auto-levels may have broad beneficial conse-stress pathways. Our results are indicative phagy induction. Finally, genetic studies quences to alleviate degeneration. of a critical crosstalk between the ERN1-in C. elegans indicate that XBP1 has a XBP1 arm of the UPR and FOXO1-role in aging through the FOXO-insulin- autophagy in HD neurons (Fig. 1), IGF1 signaling pathway. Thus, FOXO This article was funded by CHDI suggesting possible therapeutic benefits transcription factors may represent an Foundation Inc. (C.H.) and FONDECYT of targeting this pathway in a disease interesting signaling intersection between no. 3100039 (R.L.V.). In addition we context. In addition to controlling auto-the UPR and autophagy. received support from FONDECYT no. phagy, FOXO1 participates in others The current evidence illuminates how 1100176, FONDAP grant no. 15010006, processes such as mitochondrial metabol-fundamental homeostatic processes such Millennium Institute No. P09-015-F, ism, oxidative stress and the insulin-IGF1 as the UPR pathway and autophagy con-Muscular Dystrophy Association, ALS pathway that may contribute to neuro-tribute to handling cellular stress and Therapy Alliance, North American Spine protective effects observed in XBP1-provides conclusive evidence in favor of Society and Alzheimer Disease Founda-deficient animals. Interestingly, a recent a novel physiological function of XBP1 as tion (C.H.).

Muestra la fuente de financiamiento declarada en la publicación.

Abstract

Revista

Métricas Externas

Disciplinas de Investigación

Colaboración Institucional

Autores - Afiliación

Origen de Citas Identificadas

Financiamiento

Agradecimientos

Departamento Gestión de Conocimiento, Monitoreo y Prospección