Organ-on-chip model shows that ATP release through connexin hemichannels drives spontaneous Ca<sup>2+</sup> signaling in non-sensory cells of the greater epithelial ridge in the developing cochlea.

Mazzarda, Flavia; D'Elia, Annunziata; Massari, Roberto; De Ninno, Adele; Bertani, Francesca Romana; Businaro, Luca; Ziraldo, Gaia; Zorzi, Veronica; Nardin, Chiara; Peres, Chiara; Chiani, Francesco; Tettey-Matey, Abraham; Raspa, Marcello; Scavizzi, Ferdinando; Soluri, Alessandro; Salvatore, Anna Maria; Yang, Jun; Mammano, Fabio

Organ-on-chip model shows that ATP release through connexin hemichannels drives spontaneous Ca²⁺ signaling in non-sensory cells of the greater epithelial ridge in the developing cochlea.

Mazzarda, Flavia; D'Elia, Annunziata; Massari, Roberto; De Ninno, Adele; Bertani, Francesca Romana; Businaro, Luca; Ziraldo, Gaia; Zorzi, Veronica; Nardin, Chiara; Peres, Chiara; Chiani, Francesco; Tettey-Matey, Abraham; Raspa, Marcello; Scavizzi, Ferdinando; Soluri, Alessandro; Salvatore, Anna Maria; Yang, Jun; Mammano, Fabio.

Afiliação

Mazzarda F; CNR Institute of Biochemistry and Cell Biology, Monterotondo, Rome, Italy. fmazzarda@gmail.com nunzia_delia@yahoo.it roberto.massari@cnr.it zira13@gmail.com veronicazorzi.vimm@gmail.com chiara.nardin@ibbc.cnr.it chiara.peres@ibbc.cnr.it francesco.chiani@cnr.it abraham.matey@ibbc.cnr.it marcello.rasp
D'Elia A; CNR Institute of Biochemistry and Cell Biology, Monterotondo, Rome, Italy. fmazzarda@gmail.com nunzia_delia@yahoo.it roberto.massari@cnr.it zira13@gmail.com veronicazorzi.vimm@gmail.com chiara.nardin@ibbc.cnr.it chiara.peres@ibbc.cnr.it francesco.chiani@cnr.it abraham.matey@ibbc.cnr.it marcello.rasp
Massari R; CNR Institute of Biochemistry and Cell Biology, Monterotondo, Rome, Italy. fmazzarda@gmail.com nunzia_delia@yahoo.it roberto.massari@cnr.it zira13@gmail.com veronicazorzi.vimm@gmail.com chiara.nardin@ibbc.cnr.it chiara.peres@ibbc.cnr.it francesco.chiani@cnr.it abraham.matey@ibbc.cnr.it marcello.rasp
De Ninno A; CNR Institute for Photonics and Nanotechnology, Rome, Italy. adele.deninno@ifn.cnr.it francesca.bertani@cnr.it luca.businaro@ifn.cnr.it.
Bertani FR; CNR Institute for Photonics and Nanotechnology, Rome, Italy. adele.deninno@ifn.cnr.it francesca.bertani@cnr.it luca.businaro@ifn.cnr.it.
Businaro L; CNR Institute for Photonics and Nanotechnology, Rome, Italy. adele.deninno@ifn.cnr.it francesca.bertani@cnr.it luca.businaro@ifn.cnr.it.
Ziraldo G; CNR Institute of Biochemistry and Cell Biology, Monterotondo, Rome, Italy. fmazzarda@gmail.com nunzia_delia@yahoo.it roberto.massari@cnr.it zira13@gmail.com veronicazorzi.vimm@gmail.com chiara.nardin@ibbc.cnr.it chiara.peres@ibbc.cnr.it francesco.chiani@cnr.it abraham.matey@ibbc.cnr.it marcello.rasp
Zorzi V; CNR Institute of Biochemistry and Cell Biology, Monterotondo, Rome, Italy. fmazzarda@gmail.com nunzia_delia@yahoo.it roberto.massari@cnr.it zira13@gmail.com veronicazorzi.vimm@gmail.com chiara.nardin@ibbc.cnr.it chiara.peres@ibbc.cnr.it francesco.chiani@cnr.it abraham.matey@ibbc.cnr.it marcello.rasp
Nardin C; CNR Institute of Biochemistry and Cell Biology, Monterotondo, Rome, Italy. fmazzarda@gmail.com nunzia_delia@yahoo.it roberto.massari@cnr.it zira13@gmail.com veronicazorzi.vimm@gmail.com chiara.nardin@ibbc.cnr.it chiara.peres@ibbc.cnr.it francesco.chiani@cnr.it abraham.matey@ibbc.cnr.it marcello.rasp
Peres C; CNR Institute of Biochemistry and Cell Biology, Monterotondo, Rome, Italy. fmazzarda@gmail.com nunzia_delia@yahoo.it roberto.massari@cnr.it zira13@gmail.com veronicazorzi.vimm@gmail.com chiara.nardin@ibbc.cnr.it chiara.peres@ibbc.cnr.it francesco.chiani@cnr.it abraham.matey@ibbc.cnr.it marcello.rasp
Chiani F; CNR Institute of Biochemistry and Cell Biology, Monterotondo, Rome, Italy. fmazzarda@gmail.com nunzia_delia@yahoo.it roberto.massari@cnr.it zira13@gmail.com veronicazorzi.vimm@gmail.com chiara.nardin@ibbc.cnr.it chiara.peres@ibbc.cnr.it francesco.chiani@cnr.it abraham.matey@ibbc.cnr.it marcello.rasp
Tettey-Matey A; CNR Institute of Biochemistry and Cell Biology, Monterotondo, Rome, Italy. fmazzarda@gmail.com nunzia_delia@yahoo.it roberto.massari@cnr.it zira13@gmail.com veronicazorzi.vimm@gmail.com chiara.nardin@ibbc.cnr.it chiara.peres@ibbc.cnr.it francesco.chiani@cnr.it abraham.matey@ibbc.cnr.it marcello.rasp
Raspa M; CNR Institute of Biochemistry and Cell Biology, Monterotondo, Rome, Italy. fmazzarda@gmail.com nunzia_delia@yahoo.it roberto.massari@cnr.it zira13@gmail.com veronicazorzi.vimm@gmail.com chiara.nardin@ibbc.cnr.it chiara.peres@ibbc.cnr.it francesco.chiani@cnr.it abraham.matey@ibbc.cnr.it marcello.rasp
Scavizzi F; CNR Institute of Biochemistry and Cell Biology, Monterotondo, Rome, Italy. fmazzarda@gmail.com nunzia_delia@yahoo.it roberto.massari@cnr.it zira13@gmail.com veronicazorzi.vimm@gmail.com chiara.nardin@ibbc.cnr.it chiara.peres@ibbc.cnr.it francesco.chiani@cnr.it abraham.matey@ibbc.cnr.it marcello.rasp
Soluri A; CNR Institute of Biochemistry and Cell Biology, Monterotondo, Rome, Italy. fmazzarda@gmail.com nunzia_delia@yahoo.it roberto.massari@cnr.it zira13@gmail.com veronicazorzi.vimm@gmail.com chiara.nardin@ibbc.cnr.it chiara.peres@ibbc.cnr.it francesco.chiani@cnr.it abraham.matey@ibbc.cnr.it marcello.rasp
Salvatore AM; CNR Institute of Biochemistry and Cell Biology, Monterotondo, Rome, Italy. fmazzarda@gmail.com nunzia_delia@yahoo.it roberto.massari@cnr.it zira13@gmail.com veronicazorzi.vimm@gmail.com chiara.nardin@ibbc.cnr.it chiara.peres@ibbc.cnr.it francesco.chiani@cnr.it abraham.matey@ibbc.cnr.it marcello.rasp
Yang J; Department of Otorhinolaryngology Head and Neck Surgery, Xinhua Hospital, Shanghai Jiao Tong University School of Medicine, Shanghai, China. dryangjunxinhua@163.com and Shanghai Key Laboratory of Translational Medicine on Ear and Nose diseases, Shanghai, China.
Mammano F; CNR Institute of Biochemistry and Cell Biology, Monterotondo, Rome, Italy. fmazzarda@gmail.com nunzia_delia@yahoo.it roberto.massari@cnr.it zira13@gmail.com veronicazorzi.vimm@gmail.com chiara.nardin@ibbc.cnr.it chiara.peres@ibbc.cnr.it francesco.chiani@cnr.it abraham.matey@ibbc.cnr.it marcello.rasp

Lab Chip ; 20(16): 3011-3023, 2020 08 11.

Article em En | MEDLINE | ID: mdl-32700707

ABSTRACT

ABSTRACT

Prior work supports the hypothesis that ATP release through connexin hemichannels drives spontaneous Ca2+ signaling in non-sensory cells of the greater epithelial ridge (GER) in the developing cochlea; however, direct proof is lacking. To address this issue, we plated cochlear organotypic cultures (COCs) and whole cell-based biosensors with nM ATP sensitivity (ATP-WCBs) at the bottom and top of an ad hoc designed transparent microfluidic chamber, respectively. By performing dual multiphoton Ca2+ imaging, we monitored the propagation of intercellular Ca2+ waves in the GER of COCs and ATP-dependent Ca2+ responses in overlying ATP-WCBs. Ca2+ signals in both COCs and ATP-WCBs were inhibited by supplementing the extracellular medium with ATP diphosphohydrolase (apyrase). Spontaneous Ca2+ signals were strongly depressed in the presence of Gjb6-/- COCs, in which connexin 30 (Cx30) is absent and connexin 26 (Cx26) is strongly downregulated. In contrast, spontaneous Ca2+ signals were not affected by replacement of Panx1-/- with Panx1+/+ COCs in the microfluidic chamber. Similar results were obtained by estimating ATP release from COCs using a classical luciferin-luciferase bioluminescence assay. Therefore, connexin hemichannels and not pannexin 1 channels mediate the release of ATP that is responsible for Ca2+ wave propagation in the developing mouse cochlea. The technological advances presented here have the potential to shed light on a plethora of unrelated open issues that involve paracrine signaling in physiology and pathology and cannot be addressed with standard methods.

Assuntos

Trifosfato de Adenosina; Conexinas; Animais; Cóclea; Conexinas/genética; Junções Comunicantes; Camundongos; Proteínas do Tecido Nervoso; Transdução de Sinais

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Texto completo: 1 Base de dados: MEDLINE Assunto principal: Trifosfato de Adenosina / Conexinas Idioma: En Revista: Lab Chip Ano de publicação: 2020 Tipo de documento: Article

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