Cytoplasmic location of α1A voltage-gated calcium channel C-terminal fragment (Cav2.1-CTF) aggregate is sufficient to cause cell death.

Cytoplasmic location of α1A voltage-gated calcium channel C-terminal fragment (Cav2.1-CTF) aggregate is sufficient to cause cell death.

The human α1A voltage-dependent calcium channel (Cav2.1) is a pore-forming essential subunit embedded in the plasma membrane. Its cytoplasmic carboxyl(C)-tail contains a small poly-glutamine (Q) tract, whose length is normally 4∼19 Q, but when expanded up to 20∼33Q, the tract causes an autosomal-dom...

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Autores principales: Makoto Takahashi, Masato Obayashi, Taro Ishiguro, Nozomu Sato, Yusuke Niimi, Kokoro Ozaki, Kaoru Mogushi, Yasen Mahmut, Hiroshi Tanaka, Fuminori Tsuruta, Ricardo Dolmetsch, Mitsunori Yamada, Hitoshi Takahashi, Takeo Kato, Osamu Mori, Yoshinobu Eishi, Hidehiro Mizusawa, Kinya Ishikawa
Formato: article
Lenguaje:EN
Publicado: Public Library of Science (PLoS) 2013
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R
Science
Q
Acceso en línea:https://doaj.org/article/8044bf9c01c34e3db29cdef49ee568b3
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spelling oai:doaj.org-article:8044bf9c01c34e3db29cdef49ee568b32021-11-18T07:54:29ZCytoplasmic location of α1A voltage-gated calcium channel C-terminal fragment (Cav2.1-CTF) aggregate is sufficient to cause cell death.1932-620310.1371/journal.pone.0050121https://doaj.org/article/8044bf9c01c34e3db29cdef49ee568b32013-01-01T00:00:00Zhttps://www.ncbi.nlm.nih.gov/pmc/articles/pmid/23505410/pdf/?tool=EBIhttps://doaj.org/toc/1932-6203The human α1A voltage-dependent calcium channel (Cav2.1) is a pore-forming essential subunit embedded in the plasma membrane. Its cytoplasmic carboxyl(C)-tail contains a small poly-glutamine (Q) tract, whose length is normally 4∼19 Q, but when expanded up to 20∼33Q, the tract causes an autosomal-dominant neurodegenerative disorder, spinocerebellar ataxia type 6 (SCA6). A recent study has shown that a 75-kDa C-terminal fragment (CTF) containing the polyQ tract remains soluble in normal brains, but becomes insoluble mainly in the cytoplasm with additional localization to the nuclei of human SCA6 Purkinje cells. However, the mechanism by which the CTF aggregation leads to neurodegeneration is completely elusive, particularly whether the CTF exerts more toxicity in the nucleus or in the cytoplasm. We tagged recombinant (r)CTF with either nuclear-localization or nuclear-export signal, created doxycyclin-inducible rat pheochromocytoma (PC12) cell lines, and found that the CTF is more toxic in the cytoplasm than in the nucleus, the observations being more obvious with Q28 (disease range) than with Q13 (normal-length). Surprisingly, the CTF aggregates co-localized both with cAMP response element-binding protein (CREB) and phosphorylated-CREB (p-CREB) in the cytoplasm, and Western blot analysis showed that the quantity of CREB and p-CREB were both decreased in the nucleus when the rCTF formed aggregates in the cytoplasm. In human brains, polyQ aggregates also co-localized with CREB in the cytoplasm of SCA6 Purkinje cells, but not in other conditions. Collectively, the cytoplasmic Cav2.1-CTF aggregates are sufficient to cause cell death, and one of the pathogenic mechanisms may be abnormal CREB trafficking in the cytoplasm and reduced CREB and p-CREB levels in the nuclei.Makoto TakahashiMasato ObayashiTaro IshiguroNozomu SatoYusuke NiimiKokoro OzakiKaoru MogushiYasen MahmutHiroshi TanakaFuminori TsurutaRicardo DolmetschMitsunori YamadaHitoshi TakahashiTakeo KatoOsamu MoriYoshinobu EishiHidehiro MizusawaKinya IshikawaPublic Library of Science (PLoS)articleMedicineRScienceQENPLoS ONE, Vol 8, Iss 3, p e50121 (2013)
institution DOAJ
collection DOAJ
language EN
topic Medicine
R
Science
Q
spellingShingle Medicine
R
Science
Q
Makoto Takahashi
Masato Obayashi
Taro Ishiguro
Nozomu Sato
Yusuke Niimi
Kokoro Ozaki
Kaoru Mogushi
Yasen Mahmut
Hiroshi Tanaka
Fuminori Tsuruta
Ricardo Dolmetsch
Mitsunori Yamada
Hitoshi Takahashi
Takeo Kato
Osamu Mori
Yoshinobu Eishi
Hidehiro Mizusawa
Kinya Ishikawa
Cytoplasmic location of α1A voltage-gated calcium channel C-terminal fragment (Cav2.1-CTF) aggregate is sufficient to cause cell death.
description The human α1A voltage-dependent calcium channel (Cav2.1) is a pore-forming essential subunit embedded in the plasma membrane. Its cytoplasmic carboxyl(C)-tail contains a small poly-glutamine (Q) tract, whose length is normally 4∼19 Q, but when expanded up to 20∼33Q, the tract causes an autosomal-dominant neurodegenerative disorder, spinocerebellar ataxia type 6 (SCA6). A recent study has shown that a 75-kDa C-terminal fragment (CTF) containing the polyQ tract remains soluble in normal brains, but becomes insoluble mainly in the cytoplasm with additional localization to the nuclei of human SCA6 Purkinje cells. However, the mechanism by which the CTF aggregation leads to neurodegeneration is completely elusive, particularly whether the CTF exerts more toxicity in the nucleus or in the cytoplasm. We tagged recombinant (r)CTF with either nuclear-localization or nuclear-export signal, created doxycyclin-inducible rat pheochromocytoma (PC12) cell lines, and found that the CTF is more toxic in the cytoplasm than in the nucleus, the observations being more obvious with Q28 (disease range) than with Q13 (normal-length). Surprisingly, the CTF aggregates co-localized both with cAMP response element-binding protein (CREB) and phosphorylated-CREB (p-CREB) in the cytoplasm, and Western blot analysis showed that the quantity of CREB and p-CREB were both decreased in the nucleus when the rCTF formed aggregates in the cytoplasm. In human brains, polyQ aggregates also co-localized with CREB in the cytoplasm of SCA6 Purkinje cells, but not in other conditions. Collectively, the cytoplasmic Cav2.1-CTF aggregates are sufficient to cause cell death, and one of the pathogenic mechanisms may be abnormal CREB trafficking in the cytoplasm and reduced CREB and p-CREB levels in the nuclei.
format article
author Makoto Takahashi
Masato Obayashi
Taro Ishiguro
Nozomu Sato
Yusuke Niimi
Kokoro Ozaki
Kaoru Mogushi
Yasen Mahmut
Hiroshi Tanaka
Fuminori Tsuruta
Ricardo Dolmetsch
Mitsunori Yamada
Hitoshi Takahashi
Takeo Kato
Osamu Mori
Yoshinobu Eishi
Hidehiro Mizusawa
Kinya Ishikawa
author_facet Makoto Takahashi
Masato Obayashi
Taro Ishiguro
Nozomu Sato
Yusuke Niimi
Kokoro Ozaki
Kaoru Mogushi
Yasen Mahmut
Hiroshi Tanaka
Fuminori Tsuruta
Ricardo Dolmetsch
Mitsunori Yamada
Hitoshi Takahashi
Takeo Kato
Osamu Mori
Yoshinobu Eishi
Hidehiro Mizusawa
Kinya Ishikawa
author_sort Makoto Takahashi
title Cytoplasmic location of α1A voltage-gated calcium channel C-terminal fragment (Cav2.1-CTF) aggregate is sufficient to cause cell death.
title_short Cytoplasmic location of α1A voltage-gated calcium channel C-terminal fragment (Cav2.1-CTF) aggregate is sufficient to cause cell death.
title_full Cytoplasmic location of α1A voltage-gated calcium channel C-terminal fragment (Cav2.1-CTF) aggregate is sufficient to cause cell death.
title_fullStr Cytoplasmic location of α1A voltage-gated calcium channel C-terminal fragment (Cav2.1-CTF) aggregate is sufficient to cause cell death.
title_full_unstemmed Cytoplasmic location of α1A voltage-gated calcium channel C-terminal fragment (Cav2.1-CTF) aggregate is sufficient to cause cell death.
title_sort cytoplasmic location of α1a voltage-gated calcium channel c-terminal fragment (cav2.1-ctf) aggregate is sufficient to cause cell death.
publisher Public Library of Science (PLoS)
publishDate 2013
url https://doaj.org/article/8044bf9c01c34e3db29cdef49ee568b3
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