Mechanisms of hibernation and cell protection during hypothermic condition in golden hamster

金黄地鼠低温冬眠及细胞保护机制

• 批准号: 13670106
• 负责人: SHIOMI Hirohito
• 金额: $ 2.3万
• 依托单位: Fukuyama University
• 依托单位国家: 日本
• 项目类别: Grant-in-Aid for Scientific Research (C)
• 财政年份: 2001
• 资助国家: 日本
• 起止时间: 2001 至 2002
• 项目状态: 已结题
• 来源: https://kaken.nii.ac.jp/grant/KAKENHI-PROJECT-13670106/
• 关键词: hibernation; adenosine; β-endorphin; Thyrotropin-releasing hormone (TRH); brown adipose tissue (BAT); hypothermia; hyperthermia; neuroprotection factor; アドレナリンβ3受容体; 冬眠調節機構; アデノシンA1受容体; アデノシンA2受容体; オピオイド; オピオイドδ受容体

It is known that golden hamster hibernates in cold environment. The hibernation of the hamster is classified into entrance stage, maintenance stage and arousal stage. In entrance stage, the body temperature (B.T.) of hamster lowers to almost environmental temperature, and the lowered B.T. continues in maintenance stage. Intracerebroventricular (i.c.v.) administrations of adenosine (ADO) and ATP produced hypothermia in hamster. The hypothermia produced by ADO and ATP suppressed by CPT, an adenosine A1 receptor antagonist. Moreover, i.c.v. administrated CHA, an adenosine A1 receptor agonist, lowered the B.T. to almost environmental temperature. I.c.v. administrated β-endorphin produced hypothermia in a dose-dependent manner. DAMGO, a selective μ-receptor agonist, also lowered the B.T. to almost environmental temperature. In entrance stage, administration (i.c.v.) of CPT produced uprise of the B.T., but did not in maintenance stage. Administration of naloxone in maintenance stage produced … More uprise of the B.T., but did not in entrance stage. The A1 receptor number of the hypothalamus in entrance stage decreased. These results suggest that adenosine regulates the B.T. of hamster in entrance stage via A1 receptor, and opioid regulates B.T. in maintenance stage via μ receptor.During arousal from hibernation, the body temperature of hibernating hamster rapidly rises from 6 ℃ to 37 ℃. Thermogenesis in brown adipose tissue (BAT) is import component for the hyperthermia in the rodents including hamster. Thyrotropin-releasing hormone (TRH) produces the hyperthermia by increase of base metabolism. Therefore, we investigated the functional linkage of central TRH and BAT in the hyperthermia during arousal from hibernation. Intracerebroventricular (i.c.v.) administration of TRH produced hyperthermia in the hibernating hamster, and the hibernation was interrupted. In acute experiment, temperature of rectum and inter scapular BAT (iBAT) rose by the i.c.v. administration of TRH. The hyperthermic effect of TRH was suppressed by surgical denervation of iBAT and/or administration of SR59230 , a β3 adrenoceptor antagonist. I.c.v. administration of TRH caused increase of norepinephrine (NE) content and NE turnover rate in the iBAT. These results suggest that central TRH system and peripheral BAT system have functionally linked through the sympathetic nervous system, and it is play an important role in the hyperthermia during arousal from hibernation. Less

众所周知，金黄地鼠在寒冷的环境中冬眠。仓鼠的冬眠分为进入期、维持期和唤醒期。在进入阶段，体温（B.T.）降低至接近环境温度，降低的B.T.继续在维护阶段。脑室内（i. c. v.）腺苷（ADO）和ATP给药引起仓鼠体温降低。腺苷A1受体拮抗剂CPT可抑制ADO和ATP引起的体温降低。此外，i. c. v.给药CHA，腺苷A1受体激动剂，降低B.T.几乎达到环境温度。i. c. v.给予β-内啡肽以剂量依赖的方式产生体温降低。选择性μ受体激动剂DAMGO也能降低B.T.几乎达到环境温度。在入组阶段，给药（i. c. v.）CPT的使用引起了B.T.的上升，但在维持阶段没有。在维持阶段给予纳洛酮， ...更多信息 B.T.起义但在入口阶段没有。发病初期下丘脑A1受体数目减少。这些结果表明，腺苷调节B.T. B.T.通过A1受体介导，阿片类药物调节B.T.。在冬眠唤醒过程中，冬眠仓鼠的体温从6 ℃迅速上升到37 ℃。棕色脂肪组织（BAT）产热是包括仓鼠在内的啮齿类动物体温过高的重要组成部分。促甲状腺激素释放激素（TRH）通过增加基础代谢产生体温过高。因此，我们研究了中枢TRH和BAT在冬眠后唤醒体温过高中的功能联系。脑室内（i. c. v.）TRH的给药在冬眠的仓鼠中产生体温过高，并且冬眠被中断。在急性实验中，直肠和肩胛间BAT（iBAT）的温度升高，由i. c. v. TRH。TRH的热效应可被iBAT去神经和/或β3受体拮抗剂SR 59230抑制。i. c. v.给TRH可引起iBAT中去甲肾上腺素（NE）含量和NE更新率增加。提示中枢TRH系统和外周BAT系统通过交感神经系统在功能上相互联系，在冬眠唤醒过程中起重要作用。少

项目成果

Shintani, M., Tamura, Y., Omoto, M., Nakamura, A., Shiomi, H.: "Central thermoregulating system of hibernation in golden hamster"The Japanease Journal of Pharmacology. 88 Suppl.I. 238 (2002)

Shintani, M.、Tamura, Y.、Omoto, M.、Nakamura, A.、Shiomi, H.：“金仓鼠冬眠的中枢体温调节系统”《日本药理学杂志》。

Tamura, Y., Hyodo, Y., Fukui, T., Omoto.M.Shiomi, H.: "Effects of hibernation-regulating substances on low temperature-induced cell death in cultured neurons"The Japanease Journal of Pharmacology. 88 Suppl.I. 246 (2002)

Tamura, Y.、Hyodo, Y.、Fukui, T.、Omoto.M.Shiomi, H.：“冬眠调节物质对培养神经元低温诱导细胞死亡的影响”《日本药理学杂志》。

Shintani, M., Tamura, Y., Monden, M., Nakamura, A., Shiomi, H.: "Thrmo-regulating system of hamster during entrans stage and meintenance stage of hibernation. -Role of central adenosine and opiolds -"Journal of Pharmacological Sciences. 91 suppl. I. 172 (

Shintani, M.、Tamura, Y.、Monden, M.、Nakamura, A.、Shiomi, H.：“仓鼠冬眠进入阶段和维持阶段的体温调节系统。-中枢腺苷和阿片类药物的作用 -”

Tamura, Y., Yokoyama, M., Shintani, M., Monden, M., Nakamura, A. and Shiomi, H.: "Mechanism of hyperthermia during arousal from hibernation in hamster - Functional linkage of central thyrotropin-releasing hormone (TRH) and brown adipose tissue (BAT) -"Jou

Tamura, Y.、Yokoyama, M.、Shintani, M.、Monden, M.、Nakamura, A. 和 Shiomi, H.：“仓鼠冬眠唤醒过程中的高温机制 - 中枢促甲状腺素释放激素的功能联系（

Shintani, M., Tamura, Y., Omoto, M., Nakamura, A., Shiomi, H.: "Central thermoregulating system of hibernation in golden hamster"Japanease Journal of Pharmacology. 88・Suppl.I. 238 (2002)

Shintani，M.，Tamura，Y.，Omoto，M.，Nakamura，A.，Shiomi，H.：“金仓鼠冬眠的中枢温度调节系统”日本药理学杂志88・增刊238（2002）。