Therapeutic Potential of Polyamidoamine Dendrimer for Amyloidogenic Transthyretin Amyloidosis

Masamichi Inoue; Mitsuharu Ueda; Taishi Higashi; Takayuki Anno; Kazuya Fujisawa; Keiichi Motoyama; Mineyuki Mizuguchi; Yukio Ando; Hirofumi Jono; Hidetoshi Arima

doi:10.1021/acschemneuro.9b00059

Therapeutic Potential of Polyamidoamine Dendrimer for Amyloidogenic Transthyretin Amyloidosis

Masamichi Inoue, Mitsuharu Ueda, Taishi Higashi, Takayuki Anno, Kazuya Fujisawa, Keiichi Motoyama, Mineyuki Mizuguchi, Yukio Ando, Hirofumi Jono^*, Hidetoshi Arima

^*Corresponding author for this work

Structural Biology

Research output: Contribution to journal › Article › peer-review

17 Scopus citations

Abstract

Amyloidogenic transthyretin (ATTR) amyloidosis is caused by a formation of ATTR amyloid fibrils. Because ATTR misfolding triggers the formation of aggregates and amyloid fibrils, which are considered to deposit on the tissues, novel clinically effective therapeutic strategies targeted to those processes are urgently needed. In this study, to discover a new drug candidate for ATTR amyloidosis therapy, we focused on polyamidoamine dendrimer (dendrimer), a 3D-structural nanomaterial, which has a branched cationic polymer repeating polyamidoamine units. Dendrimer (G2) not only inhibited ATTR V30M amyloid fibril formation, but also reduced already formed ATTR V30M amyloid fibrils by reducing β-sheet structure of ATTR V30M protein. Moreover, intravenous administration of dendrimer (G2) reduced TTR deposition in human ATTR V30M transgenic rats. These results indicate that dendrimer (G2) may possess both inhibitory and breaking effects on ATTR V30M amyloid, suggesting that dendrimer has the potential as a dual effective agents against TTR amyloidosis.

Original language	English
Pages (from-to)	2584-2590
Number of pages	7
Journal	ACS Chemical Neuroscience
Volume	10
Issue number	5
DOIs	https://doi.org/10.1021/acschemneuro.9b00059
State	Published - 2019/05/15

Keywords

Dendrimer
amyloid breaking effect
amyloidosis
transthyretin

ASJC Scopus subject areas

Biochemistry
Physiology
Cognitive Neuroscience
Cell Biology

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title = "Therapeutic Potential of Polyamidoamine Dendrimer for Amyloidogenic Transthyretin Amyloidosis",

abstract = "Amyloidogenic transthyretin (ATTR) amyloidosis is caused by a formation of ATTR amyloid fibrils. Because ATTR misfolding triggers the formation of aggregates and amyloid fibrils, which are considered to deposit on the tissues, novel clinically effective therapeutic strategies targeted to those processes are urgently needed. In this study, to discover a new drug candidate for ATTR amyloidosis therapy, we focused on polyamidoamine dendrimer (dendrimer), a 3D-structural nanomaterial, which has a branched cationic polymer repeating polyamidoamine units. Dendrimer (G2) not only inhibited ATTR V30M amyloid fibril formation, but also reduced already formed ATTR V30M amyloid fibrils by reducing β-sheet structure of ATTR V30M protein. Moreover, intravenous administration of dendrimer (G2) reduced TTR deposition in human ATTR V30M transgenic rats. These results indicate that dendrimer (G2) may possess both inhibitory and breaking effects on ATTR V30M amyloid, suggesting that dendrimer has the potential as a dual effective agents against TTR amyloidosis.",

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author = "Masamichi Inoue and Mitsuharu Ueda and Taishi Higashi and Takayuki Anno and Kazuya Fujisawa and Keiichi Motoyama and Mineyuki Mizuguchi and Yukio Ando and Hirofumi Jono and Hidetoshi Arima",

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AU - Inoue, Masamichi

AU - Ueda, Mitsuharu

AU - Higashi, Taishi

AU - Anno, Takayuki

AU - Fujisawa, Kazuya

AU - Motoyama, Keiichi

AU - Mizuguchi, Mineyuki

AU - Ando, Yukio

AU - Jono, Hirofumi

AU - Arima, Hidetoshi

PY - 2019/5/15

Y1 - 2019/5/15

N2 - Amyloidogenic transthyretin (ATTR) amyloidosis is caused by a formation of ATTR amyloid fibrils. Because ATTR misfolding triggers the formation of aggregates and amyloid fibrils, which are considered to deposit on the tissues, novel clinically effective therapeutic strategies targeted to those processes are urgently needed. In this study, to discover a new drug candidate for ATTR amyloidosis therapy, we focused on polyamidoamine dendrimer (dendrimer), a 3D-structural nanomaterial, which has a branched cationic polymer repeating polyamidoamine units. Dendrimer (G2) not only inhibited ATTR V30M amyloid fibril formation, but also reduced already formed ATTR V30M amyloid fibrils by reducing β-sheet structure of ATTR V30M protein. Moreover, intravenous administration of dendrimer (G2) reduced TTR deposition in human ATTR V30M transgenic rats. These results indicate that dendrimer (G2) may possess both inhibitory and breaking effects on ATTR V30M amyloid, suggesting that dendrimer has the potential as a dual effective agents against TTR amyloidosis.

AB - Amyloidogenic transthyretin (ATTR) amyloidosis is caused by a formation of ATTR amyloid fibrils. Because ATTR misfolding triggers the formation of aggregates and amyloid fibrils, which are considered to deposit on the tissues, novel clinically effective therapeutic strategies targeted to those processes are urgently needed. In this study, to discover a new drug candidate for ATTR amyloidosis therapy, we focused on polyamidoamine dendrimer (dendrimer), a 3D-structural nanomaterial, which has a branched cationic polymer repeating polyamidoamine units. Dendrimer (G2) not only inhibited ATTR V30M amyloid fibril formation, but also reduced already formed ATTR V30M amyloid fibrils by reducing β-sheet structure of ATTR V30M protein. Moreover, intravenous administration of dendrimer (G2) reduced TTR deposition in human ATTR V30M transgenic rats. These results indicate that dendrimer (G2) may possess both inhibitory and breaking effects on ATTR V30M amyloid, suggesting that dendrimer has the potential as a dual effective agents against TTR amyloidosis.

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Therapeutic Potential of Polyamidoamine Dendrimer for Amyloidogenic Transthyretin Amyloidosis

Abstract

Keywords

ASJC Scopus subject areas

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