对遗传操作的大量分析表明,初始耐酒精性与快速耐受表型之间存在反相关关系

IF 2.4 4区 心理学 Q2 BEHAVIORAL SCIENCES
Maggie M. Chvilicek, Alexandra Seguin, Daniel R. Lathen, Iris Titos, Pearl N. Cummins-Beebee, Miguel A. Pabon, Maša Miščević, Emily Nickel, Collin B. Merrill, Aylin R. Rodan, Adrian Rothenfluh
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引用次数: 0

摘要

当初次接触某种物质后,需要更多的该物质才能诱发相同的行为效应时,就会产生耐受性。人们对耐受性并不十分了解,许多研究人员转而研究模式生物,特别是黑腹果蝇,以揭示其机制。果蝇与人类的酒精反应具有高度的转化相关性,而且果蝇与人类的致病基因有大量重叠,包括那些与酒精使用障碍相关的基因。已经描述了许多果蝇耐受突变体;然而,用于鉴定和描述这些突变体的方法因时间和实验室而异,而且大多忽略了最初对乙醇的抗性/敏感性对随后耐受性发展的影响。在此,我们分析了我们自己以及其他实验室公布的数据,发现初始乙醇抗性与耐受性表型之间存在反相关关系。这种反相关性表明,初始抗性表型可以解释许多 "感知 "耐受性表型,从而将这类突变体归类为 "次级 "耐受性突变体。此外,我们还发现,耐受性应该用初次和第二次暴露之间镇静时间的相对增加来衡量,而不是镇静时间的绝对变化。最后,根据我们的分析,我们提供了一种使用线性回归方程评估潜在耐受性突变体残差的方法。这些残差可预测突变体成为 "原发性 "耐受性突变体的可能性,即耐受性表型不完全是初始抗性的结果,我们还提供了一个理解初始抗性与耐受性之间关系的框架。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Large analysis of genetic manipulations reveals an inverse correlation between initial alcohol resistance and rapid tolerance phenotypes

Large analysis of genetic manipulations reveals an inverse correlation between initial alcohol resistance and rapid tolerance phenotypes

Tolerance occurs when, following an initial experience with a substance, more of the substance is required subsequently to induce identical behavioral effects. Tolerance is not well-understood, and numerous researchers have turned to model organisms, particularly Drosophila melanogaster, to unravel its mechanisms. Flies have high translational relevance for human alcohol responses, and there is substantial overlap in disease-causing genes between flies and humans, including those associated with Alcohol Use Disorder. Numerous Drosophila tolerance mutants have been described; however, approaches used to identify and characterize these mutants have varied across time and labs and have mostly disregarded any impact of initial resistance/sensitivity to ethanol on subsequent tolerance development. Here, we analyzed our own, as well as data published by other labs to uncover an inverse correlation between initial ethanol resistance and tolerance phenotypes. This inverse correlation suggests that initial resistance phenotypes can explain many ‘perceived’ tolerance phenotypes, thus classifying such mutants as ‘secondary’ tolerance mutants. Additionally, we show that tolerance should be measured as a relative increase in time to sedation between an initial and second exposure rather than an absolute change in time to sedation. Finally, based on our analysis, we provide a method for using a linear regression equation to assess the residuals of potential tolerance mutants. These residuals provide predictive insight into the likelihood of a mutant being a ‘primary’ tolerance mutant, where a tolerance phenotype is not solely a consequence of initial resistance, and we offer a framework for understanding the relationship between initial resistance and tolerance.

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来源期刊
Genes Brain and Behavior
Genes Brain and Behavior 医学-行为科学
CiteScore
6.80
自引率
4.00%
发文量
62
审稿时长
4-8 weeks
期刊介绍: Genes, Brain and Behavior was launched in 2002 with the aim of publishing top quality research in behavioral and neural genetics in their broadest sense. The emphasis is on the analysis of the behavioral and neural phenotypes under consideration, the unifying theme being the genetic approach as a tool to increase our understanding of these phenotypes. Genes Brain and Behavior is pleased to offer the following features: 8 issues per year online submissions with first editorial decisions within 3-4 weeks and fast publication at Wiley-Blackwells High visibility through its coverage by PubMed/Medline, Current Contents and other major abstracting and indexing services Inclusion in the Wiley-Blackwell consortial license, extending readership to thousands of international libraries and institutions A large and varied editorial board comprising of international specialists.
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