Region- and Neurotransmitter-dependent Species and Strain Differences in DSP–4–induced Monoamine Depletion in Rodents

Francesco Fornai , Lucia Bassi , Maria Tilde Torracca , Maria Grazia Alessandrı̀ , Vera Scalori , Giovanni U. Corsini
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引用次数: 66

Abstract

The neurotoxin N-(-2-chloroethyl)-N-ethyl-2-bromobenzylamine (DSP-4) is commonly used as a chemical tool to induce selective denervation of noradrenergic terminals arising from the locus coeruleus and to study the molecular mechanisms underlying degeneration of central noradrenergic axons in rodents. Monoamine depletion in different rodent species after DSP-4 is generally assumed to occur with a similar pattern. To verify this assumption, in the present study we evaluated the different patterns of monoamine depletion produced by DSP-4 in different brain regions of two different strains of mice and rats 3, 7 and 14 days after DSP-4 administration. In this report, we show that there are evident species and strain differences concerning the pattern of norepinephrine depletion in various brain regions. Moreover, serotonin levels are fully preserved following DSP-4 in mice, whereas there is a significant serotonin decrease in specific brain regions after the same dose of DSP-4 in rats. Apart from disclosing species and strain variability among rodents in neurotoxin-induced monoamine depletion, these findings suggest that DSP-4 should be considered as a different neurotoxin, depending on the species and strain in which it is administered.

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区域和神经递质依赖的物种和品系差异在啮齿类动物中引起的单胺消耗
神经毒素N-(-2-氯乙基)-N-乙基-2-溴苄胺(sp -4)是一种常用的化学工具,用于诱导蓝斑处的去甲肾上腺素能末端选择性去神经支配,并研究啮齿动物中枢去甲肾上腺素能轴突退化的分子机制。一般认为,不同啮齿类动物在sp -4后的单胺耗竭具有相似的模式。为了验证这一假设,在本研究中,我们评估了两种不同品系的小鼠和大鼠在给予DSP-4后3、7和14天的不同脑区中DSP-4产生的不同单胺消耗模式。在本报告中,我们发现在不同脑区去甲肾上腺素耗竭的模式存在明显的物种和品系差异。此外,在小鼠中,血清素水平完全保持在DSP-4后,而在大鼠中,相同剂量的DSP-4后,特定脑区域的血清素显著降低。除了揭示啮齿动物在神经毒素诱导的单胺消耗中的物种和品系差异外,这些发现表明,根据给药的物种和品系,DSP-4应被视为一种不同的神经毒素。
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