Impaired insulin signaling in an animal model of Niemann-Pick Type C disease

► Niemann-Pick Type C disease (NPC) and Alzheimer’s disease (AD) shared several similar histopathological characteristics. ► Although insulin signaling is impaired in AD brain, the function of insulin signaling proteins in NPC is unclear. ► We detected lower IRS1 and IRS2 expression in the brain of...

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Veröffentlicht in:	Biochemical and biophysical research communications 2012-08, Vol.424 (3), p.482-487
Hauptverfasser:	Ong, Qi-Rui, Lim, Mei-Li, Chua, Ching-Ching, Cheung, Nam Sang, Wong, Boon-Seng
Format:	Artikel
Sprache:	eng
Schlagworte:	Animals Class Ia Phosphatidylinositol 3-Kinase - metabolism Disease Models, Animal Glycogen Synthase Kinase 3 - metabolism Glycogen Synthase Kinase 3 beta GSK3beta Insulin - metabolism Insulin Receptor Substrate Proteins - biosynthesis Insulin signaling Mice Mice, Inbred BALB C Mice, Mutant Strains Niemann-Pick Disease, Type C - genetics Niemann-Pick Disease, Type C - metabolism Niemann-Pick Type C disease NPC Phosphorylation Signal Transduction
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container_title	Biochemical and biophysical research communications
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creator	Ong, Qi-Rui Lim, Mei-Li Chua, Ching-Ching Cheung, Nam Sang Wong, Boon-Seng
description	► Niemann-Pick Type C disease (NPC) and Alzheimer’s disease (AD) shared several similar histopathological characteristics. ► Although insulin signaling is impaired in AD brain, the function of insulin signaling proteins in NPC is unclear. ► We detected lower IRS1 and IRS2 expression in the brain of an NPC mouse model. ► This reduction is linked to lower PI3K/Akt activity and greater GSK3β activation in the NPCnih mice. Studies have shown similarities between the histopathological characteristics of NPC and Alzheimer’s disease (AD) including amyloid and tau pathologies. While dysfunction in insulin signaling was widely detected in AD brain, the function of insulin signaling proteins has not been examined in NPC disease. In this study, we have examined the expression and phosphorylation of proteins linked to the insulin signaling pathway in the brain of 9weeks old NPCnih mice. Our results showed lower expression of insulin receptor substrate 2 (IRS2) in the NPCnih mice, and insulin receptor substrate 1 (IRS1) expression was almost non-detectable in this NPC mouse model. This reduction was associated with the loss of expression for the regulatory p85 subunit of phosphatidylinositol 3-kinase (p85/PI3K). Interestingly, the impairment was observed to link to a greater reduction of Akt phosphorylation at residue T308 than S473. This aberrant Akt phosphorylation could be contributing to lower GSK3β phosphorylation detected in the NPCnih mouse brain. To our knowledge, this is the first report documenting impaired insulin signaling in the brain of a NPC mouse model.
doi_str_mv	10.1016/j.bbrc.2012.06.139
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Studies have shown similarities between the histopathological characteristics of NPC and Alzheimer’s disease (AD) including amyloid and tau pathologies. While dysfunction in insulin signaling was widely detected in AD brain, the function of insulin signaling proteins has not been examined in NPC disease. In this study, we have examined the expression and phosphorylation of proteins linked to the insulin signaling pathway in the brain of 9weeks old NPCnih mice. Our results showed lower expression of insulin receptor substrate 2 (IRS2) in the NPCnih mice, and insulin receptor substrate 1 (IRS1) expression was almost non-detectable in this NPC mouse model. This reduction was associated with the loss of expression for the regulatory p85 subunit of phosphatidylinositol 3-kinase (p85/PI3K). Interestingly, the impairment was observed to link to a greater reduction of Akt phosphorylation at residue T308 than S473. This aberrant Akt phosphorylation could be contributing to lower GSK3β phosphorylation detected in the NPCnih mouse brain. 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Studies have shown similarities between the histopathological characteristics of NPC and Alzheimer’s disease (AD) including amyloid and tau pathologies. While dysfunction in insulin signaling was widely detected in AD brain, the function of insulin signaling proteins has not been examined in NPC disease. In this study, we have examined the expression and phosphorylation of proteins linked to the insulin signaling pathway in the brain of 9weeks old NPCnih mice. Our results showed lower expression of insulin receptor substrate 2 (IRS2) in the NPCnih mice, and insulin receptor substrate 1 (IRS1) expression was almost non-detectable in this NPC mouse model. This reduction was associated with the loss of expression for the regulatory p85 subunit of phosphatidylinositol 3-kinase (p85/PI3K). Interestingly, the impairment was observed to link to a greater reduction of Akt phosphorylation at residue T308 than S473. This aberrant Akt phosphorylation could be contributing to lower GSK3β phosphorylation detected in the NPCnih mouse brain. 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Studies have shown similarities between the histopathological characteristics of NPC and Alzheimer’s disease (AD) including amyloid and tau pathologies. While dysfunction in insulin signaling was widely detected in AD brain, the function of insulin signaling proteins has not been examined in NPC disease. In this study, we have examined the expression and phosphorylation of proteins linked to the insulin signaling pathway in the brain of 9weeks old NPCnih mice. Our results showed lower expression of insulin receptor substrate 2 (IRS2) in the NPCnih mice, and insulin receptor substrate 1 (IRS1) expression was almost non-detectable in this NPC mouse model. This reduction was associated with the loss of expression for the regulatory p85 subunit of phosphatidylinositol 3-kinase (p85/PI3K). Interestingly, the impairment was observed to link to a greater reduction of Akt phosphorylation at residue T308 than S473. 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subjects	Animals Class Ia Phosphatidylinositol 3-Kinase - metabolism Disease Models, Animal Glycogen Synthase Kinase 3 - metabolism Glycogen Synthase Kinase 3 beta GSK3beta Insulin - metabolism Insulin Receptor Substrate Proteins - biosynthesis Insulin signaling Mice Mice, Inbred BALB C Mice, Mutant Strains Niemann-Pick Disease, Type C - genetics Niemann-Pick Disease, Type C - metabolism Niemann-Pick Type C disease NPC Phosphorylation Signal Transduction
title	Impaired insulin signaling in an animal model of Niemann-Pick Type C disease
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