Functional up‐regulation of the M‐current by retigabine contrasts hyperexcitability and excitotoxicity on rat hypoglossal motoneurons

Ghezzi, Filippo; Monni, Laura; Nistri, Andrea

doi:10.1113/jp275906

Cited by 13 publications

(12 citation statements)

References 102 publications

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“…In fact, there is accumulating evidence that mutations in the genes encoding KCNQ2/3 subunits or PtdIns(4,5) P 2 -metabolizing enzymes lead to neuropathies similar to those in NPC1 disease. Mutations in KCNQ2/3 cause the hyperexcitability of neurons, leading to epileptic phenotypes in neonatal epilepsy ( Jentsch, 2000 ; Watanabe et al, 2000 ), Huntington disease ( Cao et al, 2015 ), and the bulbar form of amyotrophic lateral sclerosis (ALS) ( Ghezzi et al, 2018 ). Opening KCNQ2/3 channels with retigabine protects motoneurons against the excitotoxicity characteristic of this form of ALS ( Ghezzi et al, 2018 ).…”

Section: Discussionmentioning

confidence: 99%

“…Mutations in KCNQ2/3 cause the hyperexcitability of neurons, leading to epileptic phenotypes in neonatal epilepsy ( Jentsch, 2000 ; Watanabe et al, 2000 ), Huntington disease ( Cao et al, 2015 ), and the bulbar form of amyotrophic lateral sclerosis (ALS) ( Ghezzi et al, 2018 ). Opening KCNQ2/3 channels with retigabine protects motoneurons against the excitotoxicity characteristic of this form of ALS ( Ghezzi et al, 2018 ). Further, mutations in the enzymes responsible for PtdIns(4,5) P 2 synthesis are associated with Alzheimer disease ( Zhu et al, 2015 ), Parkinson disease ( Cao et al, 2017 ), and Friedreich ataxia ( Bayot et al, 2013 ), another rare neurodegenerative disease.…”

Section: Discussionmentioning

confidence: 99%

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Niemann-Pick Type C Disease Reveals a Link between Lysosomal Cholesterol and PtdIns(4,5)P2 That Regulates Neuronal Excitability

et al. 2019

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SUMMARY There is increasing evidence that the lysosome is involved in the pathogenesis of a variety of neurodegenerative disorders. Thus, mechanisms that link lysosome dysfunction to the disruption of neuronal homeostasis offer opportunities to understand the molecular underpinnings of neurodegeneration and potentially identify specific therapeutic targets. Here, using a monogenic neurodegenerative disorder, NPC1 disease, we demonstrate that reduced cholesterol efflux from lysosomes aberrantly modifies neuronal firing patterns. The molecular mechanism linking alterations in lysosomal cholesterol egress to intrinsic tuning of neuronal excitability is a transcriptionally mediated upregulation of the ABCA1 transporter, whose PtdIns(4,5) P 2 -floppase activity decreases plasma membrane PtdIns(4,5) P 2 . The consequence of reduced PtdIns(4,5) P 2 is a parallel decrease in a key regulator of neuronal excitability, the voltage-gated KCNQ2/3 potassium channel, which leads to hyperexcitability in NPC1 disease neurons. Thus, cholesterol efflux from lysosomes regulates PtdIns(4,5) P 2 to shape the electrical and functional identity of the plasma membrane of neurons in health and disease.

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Niemann-Pick Type C Disease Reveals a Link between Lysosomal Cholesterol and PtdIns(4,5)P2 That Regulates Neuronal Excitability

et al. 2019

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“…[43] In this line, a downregulation of IR and GSK3 has been reported in renal proximal tubules of diabetic rats, [23] and a protective role for GSK3 has been suggested in high glucose-treated renal proximal tubular cells. [44] Moreover, it has been shown that the SGLT-2-mediated transport involved the phosphorylation of SGLT-2 via IR signaling in HEK-293T cells transfected with SGLT-1 and -2, [45] and in diabetic patients the administration of empagliflozin (an SGLT-2 inhibitor) improved insulin secretion and peripheral glucose uptake through poorly defined mechanisms. [46] Indeed, the contribution of the insulinsensitizing effects to the overall beneficial effect of SGLT-2 inhibitory drugs needs to be examined.…”

Section: Discussionmentioning

confidence: 99%

(‐)‐Epicatechin and the Colonic 2,3‐Dihydroxybenzoic Acid Metabolite Regulate Glucose Uptake, Glucose Production, and Improve Insulin Signaling in Renal NRK‐52E Cells

Álvarez-Cilleros

Martín

Ramos

2018

Molecular Nutrition Food Res

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“…Dysfunction in the activity of KCNQ2/3 or altered levels of PtdIns(4,5)P2, due notably to genetic mutations, might also be involved in other neuropathies (for example, some forms of epilepsy, HD, PD, AD, ALS and Friedrich ataxia). Although further experiments are needed to validate the link discovered between hyperexcitability and cell death in NPC1 disease and other neurodegenerative diseases, small molecules such as retigabine, an anti convulsant drug that keeps KCNQ2/3 channels open, might rep resent important therapeutic tools 324,325 . Other channel opener ligands of KCNQ2/Q3 include ICA069673 and its derivatives.…”

Section: Emerging Potential Lysosomal Therapeutic Targetsmentioning

confidence: 99%

Lysosomes as a therapeutic target

Bonam

Wang

Muller

2019

Nat Rev Drug Discov

495

374

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| Lysosomes are membrane-bound organelles with roles in processes involved in degrading and recycling cellular waste, cellular signalling and energy metabolism. Defects in genes encoding lysosomal proteins cause lysosomal storage disorders, in which enzyme replacement therapy has proved successful. Growing evidence also implicates roles for lysosomal dysfunction in more common diseases including inflammatory and autoimmune disorders, neurodegenerative diseases, cancer and metabolic disorders. With a focus on lysosomal dysfunction in autoimmune disorders and neurodegenerative diseases -including lupus, rheumatoid arthritis, multiple sclerosis, Alzheimer disease and Parkinson disease -this Review critically analyses progress and opportunities for therapeutically targeting lysosomal proteins and processes, particularly with small molecules and peptide drugs.

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Functional up‐regulation of the M‐current by retigabine contrasts hyperexcitability and excitotoxicity on rat hypoglossal motoneurons

Cited by 13 publications

References 102 publications

Niemann-Pick Type C Disease Reveals a Link between Lysosomal Cholesterol and PtdIns(4,5)P2 That Regulates Neuronal Excitability

Niemann-Pick Type C Disease Reveals a Link between Lysosomal Cholesterol and PtdIns(4,5)P2 That Regulates Neuronal Excitability

(‐)‐Epicatechin and the Colonic 2,3‐Dihydroxybenzoic Acid Metabolite Regulate Glucose Uptake, Glucose Production, and Improve Insulin Signaling in Renal NRK‐52E Cells

Lysosomes as a therapeutic target

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