Jacobson Laura H, Cryan John F
Novartis Institutes for BioMedical Research, Neuroscience Research, WSJ-386.344, 4002, Basel, Switzerland.
Psychopharmacology (Berl). 2005 May;179(3):688-99. doi: 10.1007/s00213-004-2086-1. Epub 2005 Jan 25.
Comparison of different mouse strains can provide valuable information about the genetic control of behavioural and molecular phenotypes. Recent evidence has demonstrated the importance of GABA B receptors in anxiety and depression. Investigation of the phamacogenetics of GABA B receptor activation may aid in the understanding of mechanisms underlying the role of GABA B in affect.
The aim of current study was to determine the relative sensitivity of different mouse strains to GABA B receptor agonism in two models of GABA B receptor function, namely hypothermia and motor incoordination.
Mice each from 11 strains (BALB/cByJIco, DBA/2JIco, OF1, FVB/NIco, CD1, C3H/HeOuJIco, 129/SvPasIco, NMRI, C57BL/6JIco, A/JOlaHsd and Swiss) were trained to walk on a rotarod for 300 s. On the following day, mice received 0, 3, 6 or 12 mg/kg of L: -baclofen PO. Rectal temperature and rotarod performance were measured at 0, 1, 2 and 4 h after drug application.
L: -Baclofen produced a significant dose-dependent hypothermia and ataxia in most, but not all, mouse strains examined. The magnitude and duration of response was influenced by strain, with mice of the 129/SvPasIco strain showing largest hypothermic response to 12 mg/kg l-baclofen and C3H/HeOuJIco the lowest, whereas the BALB/cByJIco strain demonstrated greatest ataxic response on the rotarod, and NMRI the least. Interestingly, some strains (notably C3H/HeOuJIco) had marked differential hypothermic and ataxic responses, with minimal body temperature responses to L: -baclofen but significant ataxia on the rotarod observed.
There is differential genetic control on specific GABA B receptor populations that mediate hypothermia and ataxia. Further, these studies demonstrate that background strain is an important determinant of GABA B receptor mediated responses, and that hypothermic and ataxic responses may be influenced by independent genetic loci.
比较不同小鼠品系可为行为和分子表型的遗传控制提供有价值的信息。最近的证据表明γ-氨基丁酸B(GABAB)受体在焦虑和抑郁中具有重要作用。研究GABAB受体激活的药物遗传学可能有助于理解GABAB在情感方面作用的潜在机制。
本研究的目的是在GABAB受体功能的两种模型,即体温过低和运动不协调模型中,确定不同小鼠品系对GABAB受体激动作用的相对敏感性。
从11个品系(BALB/cByJIco、DBA/2JIco、OF1、FVB/NIco、CD1、C3H/HeOuJIco、129/SvPasIco、NMRI、C57BL/6JIco、A/JOlaHsd和瑞士小鼠)中各选取小鼠,训练它们在转棒上行走300秒。次日,小鼠经口给予0、3、6或12mg/kg的左旋巴氯芬。在给药后0、1、2和4小时测量直肠温度和转棒表现。
左旋巴氯芬在大多数(但并非所有)所检测的小鼠品系中产生了显著的剂量依赖性体温过低和共济失调。反应的程度和持续时间受品系影响,129/SvPasIco品系的小鼠对12mg/kg左旋巴氯芬表现出最大的体温过低反应,C3H/HeOuJIco品系最低,而BALB/cByJIco品系在转棒上表现出最大的共济失调反应,NMRI品系最小。有趣的是,一些品系(特别是C3H/HeOuJIco)具有明显不同的体温过低和共济失调反应,对左旋巴氯芬的体温反应最小,但在转棒上观察到明显的共济失调。
在介导体温过低和共济失调的特定GABAB受体群体上存在差异遗传控制。此外,这些研究表明背景品系是GABAB受体介导反应的重要决定因素,并且体温过低和共济失调反应可能受独立的基因位点影响。