Therapeutic potential of autophagy-enhancing agents in Parkinson’s disease

Converging evidence from genetic, pathological and experimental studies have increasingly suggested an important role for autophagy impairment in Parkinson’s Disease (PD). Genetic studies have identified mutations in genes encoding for components of the autophagy-lysosomal pathway (ALP), including g...

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Vydáno v:Molecular neurodegeneration Ročník 12; číslo 1; s. 11
Hlavní autoři: Moors, Tim E., Hoozemans, Jeroen J. M., Ingrassia, Angela, Beccari, Tommaso, Parnetti, Lucilla, Chartier-Harlin, Marie-Christine, van de Berg, Wilma D. J.
Médium: Journal Article
Jazyk:angličtina
Vydáno: London BioMed Central 25.01.2017
BioMed Central Ltd
Springer Nature B.V
Témata:
Autophagy (Cytology)
Biomedical and Life Sciences
Biomedicine
Care and treatment
Dosage and administration
Genetic aspects
Health aspects
Life Sciences
Molecular Medicine
Neurology
Neurosciences
Parkinson's disease
Rapamycin
Review
Risk factors
Autophagic Cell Death
Dementia With Lewy Body
Ambroxol
Dementia With Lewy Body Patient
Gauche Disease
ISSN:1750-1326, 1750-1326
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Abstract Converging evidence from genetic, pathological and experimental studies have increasingly suggested an important role for autophagy impairment in Parkinson’s Disease (PD). Genetic studies have identified mutations in genes encoding for components of the autophagy-lysosomal pathway (ALP), including glucosidase beta acid 1 ( GBA1 ), that are associated with increased risk for developing PD. Observations in PD brain tissue suggest an aberrant regulation of autophagy associated with the aggregation of α-synuclein (α-syn). As autophagy is one of the main systems involved in the proteolytic degradation of α-syn, pharmacological enhancement of autophagy may be an attractive strategy to combat α-syn aggregation in PD. Here, we review the potential of autophagy enhancement as disease-modifying therapy in PD based on preclinical evidence. In particular, we provide an overview of the molecular regulation of autophagy and targets for pharmacological modulation within the ALP. In experimental models, beneficial effects on multiple pathological processes involved in PD, including α-syn aggregation, cell death, oxidative stress and mitochondrial dysfunction, have been demonstrated using the autophagy enhancers rapamycin and lithium. However, selectivity of these agents is limited, while upstream ALP signaling proteins are involved in many other pathways than autophagy. Broad stimulation of autophagy may therefore cause a wide spectrum of dose-dependent side-effects, suggesting that its clinical applicability is limited. However, recently developed agents selectively targeting core ALP components, including Transcription Factor EB (TFEB), lysosomes, GCase as well as chaperone-mediated autophagy regulators, exert more specific effects on molecular pathogenetic processes causing PD. To conclude, the targeted manipulation of downstream ALP components, rather than broad autophagy stimulation, may be an attractive strategy for the development of novel pharmacological therapies in PD. Further characterization of dysfunctional autophagy in different stages and molecular subtypes of PD in combination with the clinical translation of downstream autophagy regulation offers exciting new avenues for future drug development.
AbstractList Converging evidence from genetic, pathological and experimental studies have increasingly suggested an important role for autophagy impairment in Parkinson’s Disease (PD). Genetic studies have identified mutations in genes encoding for components of the autophagy-lysosomal pathway (ALP), including glucosidase beta acid 1 ( GBA1 ), that are associated with increased risk for developing PD. Observations in PD brain tissue suggest an aberrant regulation of autophagy associated with the aggregation of α-synuclein (α-syn). As autophagy is one of the main systems involved in the proteolytic degradation of α-syn, pharmacological enhancement of autophagy may be an attractive strategy to combat α-syn aggregation in PD. Here, we review the potential of autophagy enhancement as disease-modifying therapy in PD based on preclinical evidence. In particular, we provide an overview of the molecular regulation of autophagy and targets for pharmacological modulation within the ALP. In experimental models, beneficial effects on multiple pathological processes involved in PD, including α-syn aggregation, cell death, oxidative stress and mitochondrial dysfunction, have been demonstrated using the autophagy enhancers rapamycin and lithium. However, selectivity of these agents is limited, while upstream ALP signaling proteins are involved in many other pathways than autophagy. Broad stimulation of autophagy may therefore cause a wide spectrum of dose-dependent side-effects, suggesting that its clinical applicability is limited. However, recently developed agents selectively targeting core ALP components, including Transcription Factor EB (TFEB), lysosomes, GCase as well as chaperone-mediated autophagy regulators, exert more specific effects on molecular pathogenetic processes causing PD. To conclude, the targeted manipulation of downstream ALP components, rather than broad autophagy stimulation, may be an attractive strategy for the development of novel pharmacological therapies in PD. Further characterization of dysfunctional autophagy in different stages and molecular subtypes of PD in combination with the clinical translation of downstream autophagy regulation offers exciting new avenues for future drug development.
Converging evidence from genetic, pathological and experimental studies have increasingly suggested an important role for autophagy impairment in Parkinson's Disease (PD). Genetic studies have identified mutations in genes encoding for components of the autophagy-lysosomal pathway (ALP), including glucosidase beta acid 1 (GBA1), that are associated with increased risk for developing PD. Observations in PD brain tissue suggest an aberrant regulation of autophagy associated with the aggregation of α-synuclein (α-syn). As autophagy is one of the main systems involved in the proteolytic degradation of α-syn, pharmacological enhancement of autophagy may be an attractive strategy to combat α-syn aggregation in PD. Here, we review the potential of autophagy enhancement as disease-modifying therapy in PD based on preclinical evidence. In particular, we provide an overview of the molecular regulation of autophagy and targets for pharmacological modulation within the ALP. In experimental models, beneficial effects on multiple pathological processes involved in PD, including α-syn aggregation, cell death, oxidative stress and mitochondrial dysfunction, have been demonstrated using the autophagy enhancers rapamycin and lithium. However, selectivity of these agents is limited, while upstream ALP signaling proteins are involved in many other pathways than autophagy. Broad stimulation of autophagy may therefore cause a wide spectrum of dose-dependent side-effects, suggesting that its clinical applicability is limited. However, recently developed agents selectively targeting core ALP components, including Transcription Factor EB (TFEB), lysosomes, GCase as well as chaperone-mediated autophagy regulators, exert more specific effects on molecular pathogenetic processes causing PD. To conclude, the targeted manipulation of downstream ALP components, rather than broad autophagy stimulation, may be an attractive strategy for the development of novel pharmacological therapies in PD. Further characterization of dysfunctional autophagy in different stages and molecular subtypes of PD in combination with the clinical translation of downstream autophagy regulation offers exciting new avenues for future drug development.
AbstractConverging evidence from genetic, pathological and experimental studies have increasingly suggested an important role for autophagy impairment in Parkinson’s Disease (PD). Genetic studies have identified mutations in genes encoding for components of the autophagy-lysosomal pathway (ALP), including glucosidase beta acid 1 (GBA1), that are associated with increased risk for developing PD. Observations in PD brain tissue suggest an aberrant regulation of autophagy associated with the aggregation of α-synuclein (α-syn). As autophagy is one of the main systems involved in the proteolytic degradation of α-syn, pharmacological enhancement of autophagy may be an attractive strategy to combat α-syn aggregation in PD. Here, we review the potential of autophagy enhancement as disease-modifying therapy in PD based on preclinical evidence. In particular, we provide an overview of the molecular regulation of autophagy and targets for pharmacological modulation within the ALP. In experimental models, beneficial effects on multiple pathological processes involved in PD, including α-syn aggregation, cell death, oxidative stress and mitochondrial dysfunction, have been demonstrated using the autophagy enhancers rapamycin and lithium. However, selectivity of these agents is limited, while upstream ALP signaling proteins are involved in many other pathways than autophagy. Broad stimulation of autophagy may therefore cause a wide spectrum of dose-dependent side-effects, suggesting that its clinical applicability is limited. However, recently developed agents selectively targeting core ALP components, including Transcription Factor EB (TFEB), lysosomes, GCase as well as chaperone-mediated autophagy regulators, exert more specific effects on molecular pathogenetic processes causing PD. To conclude, the targeted manipulation of downstream ALP components, rather than broad autophagy stimulation, may be an attractive strategy for the development of novel pharmacological therapies in PD. Further characterization of dysfunctional autophagy in different stages and molecular subtypes of PD in combination with the clinical translation of downstream autophagy regulation offers exciting new avenues for future drug development.
ArticleNumber 11
Audience Academic
Author Hoozemans, Jeroen J. M.
van de Berg, Wilma D. J.
Moors, Tim E.
Parnetti, Lucilla
Ingrassia, Angela
Chartier-Harlin, Marie-Christine
Beccari, Tommaso
Author_xml – sequence: 1
  givenname: Tim E.
  orcidid: 0000-0003-2223-9947
  surname: Moors
  fullname: Moors, Tim E.
  email: t.moors@vumc.nl
  organization: Department of Anatomy and Neurosciences, Section Clinical Neuroanatomy, Amsterdam Neuroscience, VU University Medical Center Amsterdam
– sequence: 2
  givenname: Jeroen J. M.
  surname: Hoozemans
  fullname: Hoozemans, Jeroen J. M.
  organization: Department of Pathology, Amsterdam Neuroscience, VU University Medical Center Amsterdam
– sequence: 3
  givenname: Angela
  surname: Ingrassia
  fullname: Ingrassia, Angela
  organization: Department of Anatomy and Neurosciences, Section Clinical Neuroanatomy, Amsterdam Neuroscience, VU University Medical Center Amsterdam
– sequence: 4
  givenname: Tommaso
  surname: Beccari
  fullname: Beccari, Tommaso
  organization: Department of Pharmaceutical Sciences, University of Perugia
– sequence: 5
  givenname: Lucilla
  surname: Parnetti
  fullname: Parnetti, Lucilla
  organization: Department of Medicine, Section of Neurology, University of Perugia
– sequence: 6
  givenname: Marie-Christine
  surname: Chartier-Harlin
  fullname: Chartier-Harlin, Marie-Christine
  organization: UMR-S 1172—JPArc—Centre de Recherche Jean-Pierre AUBERT Neurosciences et Cancer, University of Lille, Inserm, UMR-S 1172, Team “Early stages of Parkinson’s disease”
– sequence: 7
  givenname: Wilma D. J.
  surname: van de Berg
  fullname: van de Berg, Wilma D. J.
  organization: Department of Anatomy and Neurosciences, Section Clinical Neuroanatomy, Amsterdam Neuroscience, VU University Medical Center Amsterdam
BackLink https://inserm.hal.science/inserm-01446327$$DView record in HAL
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Issue 1
Keywords Autophagic Cell Death
Dementia With Lewy Body
Ambroxol
Dementia With Lewy Body Patient
Gauche Disease
Language English
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Snippet Converging evidence from genetic, pathological and experimental studies have increasingly suggested an important role for autophagy impairment in Parkinson’s...
Converging evidence from genetic, pathological and experimental studies have increasingly suggested an important role for autophagy impairment in Parkinson's...
AbstractConverging evidence from genetic, pathological and experimental studies have increasingly suggested an important role for autophagy impairment in...
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SubjectTerms Autophagy (Cytology)
Biomedical and Life Sciences
Biomedicine
Care and treatment
Dosage and administration
Genetic aspects
Health aspects
Life Sciences
Molecular Medicine
Neurology
Neurosciences
Parkinson's disease
Rapamycin
Review
Risk factors
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Title Therapeutic potential of autophagy-enhancing agents in Parkinson’s disease
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