Effects of 6-O-α-maltosyl-β cyclodextrin on lipid metabolism in Npc1-deficient Chinese hamster ovary cells

Effects of 6-O-α-maltosyl-β cyclodextrin on lipid metabolism in Npc1-deficient Chinese hamster ovary cells

Niemann-Pick disease Type C (NPC) is a lysosomal storage disorder caused by mutation of the NPC1/NPC2 genes, which ultimately results in the accumulation of unesterified cholesterol (UEC) in lysosomes, thereby inducing symptoms such as progressive neurodegeneration and hepatosplenomegaly. This study...

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Veröffentlicht in:Molecular genetics and metabolism 2022-11, Vol.137 (3), p.239-248
Hauptverfasser: Okada, By Yasuyo, Kuroiwa, Sayako, Noi, Ayaka, Tanaka, Ayaka, Nishikawa, Junichi, Kondo, Yuki, Ishitsuka, Yoichi, Irie, Tetsumi, Higaki, Katsumi, Matsuo, Muneaki, Ichikawa, Atsushi
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6-O-α-Maltosyl-β cyclodextrin
Esterified cholesterol
Long-chain fatty acid
Niemann-Pick disease type C
Stable isotope tracer analysis
Unesterified cholesterol
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container_end_page 248
container_issue 3
container_start_page 239
container_title Molecular genetics and metabolism
container_volume 137
creator Okada, By Yasuyo
Kuroiwa, Sayako
Noi, Ayaka
Tanaka, Ayaka
Nishikawa, Junichi
Kondo, Yuki
Ishitsuka, Yoichi
Irie, Tetsumi
Higaki, Katsumi
Matsuo, Muneaki
Ichikawa, Atsushi
description Niemann-Pick disease Type C (NPC) is a lysosomal storage disorder caused by mutation of the NPC1/NPC2 genes, which ultimately results in the accumulation of unesterified cholesterol (UEC) in lysosomes, thereby inducing symptoms such as progressive neurodegeneration and hepatosplenomegaly. This study determines the effects of 6-O-α-maltosyl-β cyclodextrin (Mal-βCD) on lipid levels and synthesis in Npc1-deficient (Npc1-KO cells) and vehicle CHO cells. Compared to vehicle cells, Npc1-KO cells exhibited high level of UEC, and low levels of esterified cholesterols (ECs) and long-chain fatty acids (LCFAs). The difference in lipid levels between Npc1-KO and CHO cells was largely ameliorated by Mal-βCD administration. Moreover, the effects of Mal-βCD were reproduced in the lysosomes prepared from Npc1-KO cells. Stable isotope tracer analysis with extracellular addition of D4-deuterated palmitic acid (D4-PA) to Npc1-KO cells increased the synthesis of D4-deuterated LCFAs (D4-LCFAs) and D4-deuterated ECs (D4-ECs) in a Mal-βCD-dependent manner. Simultaneous addition of D6-deuterated UEC (D6-UEC) and D4-PA promoted the Mal-βCD-dependent synthesis of D6-/D4-ECs, consisting of D6-UEC and D4-PA, D4-deuterated stearic acid, or D4-deuterated myristic acid, in Npc1-KO cells. These results suggest that Mal-βCD helps to maintain normal lipid metabolism by restoring balance among UEC, ECs, and LCFAs through acting on behalf of NPC1 in Npc1-KO cells and may therefore be useful in designing effective therapies for NPC. •6-O-α-Maltosyl-β cyclodextrin (Mal-βCD) acts on behalf of NPC1 in Npc1-deficient cells.•Mal-βCD improved lipid balance in Npc1-deficient cells.•Mal-βCD reduced cellular/lysosomal unesterified cholesterol in Npc1-deficient cells.•Mal-βCD increased esterified cholesterol and long-chain fatty acid in Npc1-deficient cells.
doi_str_mv 10.1016/j.ymgme.2022.09.007
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This study determines the effects of 6-O-α-maltosyl-β cyclodextrin (Mal-βCD) on lipid levels and synthesis in Npc1-deficient (Npc1-KO cells) and vehicle CHO cells. Compared to vehicle cells, Npc1-KO cells exhibited high level of UEC, and low levels of esterified cholesterols (ECs) and long-chain fatty acids (LCFAs). The difference in lipid levels between Npc1-KO and CHO cells was largely ameliorated by Mal-βCD administration. Moreover, the effects of Mal-βCD were reproduced in the lysosomes prepared from Npc1-KO cells. Stable isotope tracer analysis with extracellular addition of D4-deuterated palmitic acid (D4-PA) to Npc1-KO cells increased the synthesis of D4-deuterated LCFAs (D4-LCFAs) and D4-deuterated ECs (D4-ECs) in a Mal-βCD-dependent manner. Simultaneous addition of D6-deuterated UEC (D6-UEC) and D4-PA promoted the Mal-βCD-dependent synthesis of D6-/D4-ECs, consisting of D6-UEC and D4-PA, D4-deuterated stearic acid, or D4-deuterated myristic acid, in Npc1-KO cells. 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subjects 6-O-α-Maltosyl-β cyclodextrin
Esterified cholesterol
Long-chain fatty acid
Niemann-Pick disease type C
Stable isotope tracer analysis
Unesterified cholesterol
title Effects of 6-O-α-maltosyl-β cyclodextrin on lipid metabolism in Npc1-deficient Chinese hamster ovary cells
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