Effects of the selective GPER1 agonist G1 on bone growth
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01.09.2019 |
Iravani M.
Lagerquist M.
Karimian E.
Chagin A.
Ohlsson C.
Sävendahl L.
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Endocrine Connections |
10.1530/EC-19-0274 |
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Ссылка
© 2019 The authors. Estrogens may affect bone growth locally or systemically via the known estrogen receptors ESR1, ESR2 and G protein-coupled estrogen receptor 1 (GPER1). Mouse and human growth plate chondrocytes have been demonstrated to express GPER1 and ablation of this receptor increased bone length in mice. Therefore, GPER1 is an attractive target for therapeutic modulation of bone growth, which has never been explored. To investigate the effects of activated GPER1 on the growth plate, we locally exposed mouse metatarsal bones to different concentrations of the selective GPER1 agonist G1 for 14 days ex vivo. The results showed that none of the concentrations of G1 had any direct effect on metatarsal bone growth when compared to control. To evaluate if GPER1 stimulation may systemically modulate bone growth, ovariectomized C57BL/6 mice were treated with G1 or β-estradiol (E2). Similarly, G1 did not influence tibia and femur growth in treated mice. As expected, E2 treatment suppressed bone growth in vivo. We conclude that ligand stimulation of GPER1 does not influence bone growth in mice.
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Diagnostic aspects of gastrointestinal stromal tumour with extraorganic growth. Clinical case
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01.01.2018 |
Levkin V.
Kharnas S.
Gagarina N.
Sokolova I.
Khorobrykh T.
Shkurlatovskaia K.
Nekrasova T.
Tertychnyi A.
Kirzhner E.
Pavlov Y.
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Russian Electronic Journal of Radiology |
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© 2018 Russian Electronic Journal of Radiology.All right reserved. This article presents the clinical case of an extragastric large gastrointestinal stromal tumor combined with osteomyelofibrosis. It made great differential diagnostic difficulties with regard to the tumor location. Modern radiology methods are described, which allow to reveal and establish the organogenesis of the tumor as well as its histological characteristics.
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Proton-independent activation of acidsensing ion channel 3 by an alkaloid, lindoldhamine, from Laurus nobilis
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Андреев Ярослав Алексеевич
Осмаков Дмитрий Игоревич
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British Journal of Pharmacology |
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Acid-sensing ion channels (ASICs) play an important role in synaptic plasticity and learning, as well as in nociception and mechanosensation. ASICs are involved in pain and in neurological and psychiatric diseases, but their therapeutic potential is limited by the lack of ligands activating them at physiological pH.
EXPERIMENTAL APPROACH:
We extracted, purified and determined the structure of a bisbenzylisoquinoline alkaloid, lindoldhamine, (LIN) from laurel leaves. Its effect on ASIC3 channels were characterized, using two-electrode voltage-clamp electrophysiological recordings from Xenopus laevis oocytes.
KEY RESULTS:
At pH 7.4 or higher, LIN activated a sustained, proton-independent, current through rat and human ASIC3 channels, but not rat ASIC1a or ASIC2a channels. LIN also potentiated proton-induced transient currents and promoted recovery from desensitization in human, but not rat, ASIC3 channels.
CONCLUSIONS AND IMPLICATIONS:
We describe a novel ASIC subtype-specific agonist LIN, which induced proton-independent activation of human and rat ASIC3 channels at physiological pH. LIN also acts as a positive allosteric modulator of human, but not rat, ASIC3 channels. This unique, species-selective, ligand of ASIC3, opens new avenues in studies of ASIC structure and function, as well as providing new approaches to drug design.
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Публикация |
Proton-independent activation of acidsensing ion channel 3 by an alkaloid, lindoldhamine, from Laurus nobilis
|
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Андреев Ярослав Алексеевич (Заведующий лабораторией Молекулярной и клеточной биологии)
Осмаков Дмитрий Игоревич (старший научный сотрудник, лаборатория молекулярной и клеточной биологии)
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British Journal of Pharmacology |
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Acid-sensing ion channels (ASICs) play an important role in synaptic plasticity and learning, as well as in nociception and mechanosensation. ASICs are involved in pain and in neurological and psychiatric diseases, but their therapeutic potential is limited by the lack of ligands activating them at physiological pH.
EXPERIMENTAL APPROACH:
We extracted, purified and determined the structure of a bisbenzylisoquinoline alkaloid, lindoldhamine, (LIN) from laurel leaves. Its effect on ASIC3 channels were characterized, using two-electrode voltage-clamp electrophysiological recordings from Xenopus laevis oocytes.
KEY RESULTS:
At pH 7.4 or higher, LIN activated a sustained, proton-independent, current through rat and human ASIC3 channels, but not rat ASIC1a or ASIC2a channels. LIN also potentiated proton-induced transient currents and promoted recovery from desensitization in human, but not rat, ASIC3 channels.
CONCLUSIONS AND IMPLICATIONS:
We describe a novel ASIC subtype-specific agonist LIN, which induced proton-independent activation of human and rat ASIC3 channels at physiological pH. LIN also acts as a positive allosteric modulator of human, but not rat, ASIC3 channels. This unique, species-selective, ligand of ASIC3, opens new avenues in studies of ASIC structure and function, as well as providing new approaches to drug design.
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тезис
Публикация |