Biochemical and physicochemical determinations in a premyelin fraction obtained by zonal centrifugation in normal mouse and in dysmyelinating mutants (quaking, shiverer, and myelin-deficient).

J M Bourre, F Boiron, C Cassagne, O Dumont, F Leterrier, H Metzger, J Viret
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引用次数: 3

Abstract

Myelin and premyelin material denser than myelin were obtained from quaking (Qk), shiverer (Shi), and myelin-deficient (mld) mutant and control mice, using zonal centrifugation on zonal rotor. On these fractions, we performed biochemical analysis (lipids and fatty acid), and, in parallel, we determined the physical structure of membranes by the spin-label method. The hyperfine splitting constant (2 Tll) was used to determine the order of membranes and their rigidity, and frequency of rotation (Vc) was used to measure fluidity. In control mice, the premyelin material contained a lesser amount of sphingolipids than pure myelin, but the relative proportions between hydroxy- and nonhydroxy-cerebroside and sulfatides were similar in the premyelin material and in pure myelin. The premyelin material contained half the alkanes found in the pure myelin and much less very-long-chain fatty acids. The (2 Tll) was lower in the premyelin material, but the (Vc) was similar in myelin and premyelin material. In mutants, the amount of material recovered in the premyelin fraction was reduced in qk, and increased in both shi and mld. The relative amount of sphingolipids were normal in mld, but not in shi mutants, especially in cerebrosides formed with alpha-hydroxylated fatty acids and sulfatides formed with unsubstituted fatty acids. The absolute amounts of sphingolipids were nearly normal in both shi and mld. In the premyelin fraction from qk mutants, both relative and absolute amounts of sphingolipids were drastically altered. In percentage, cerebrosides and sulfatides formed with nonhydroxyfatty acids were dramatically reduced, and, conversely, cerebrosides and sulfatides formed with hydroxyfatty acids were increased. In terms of absolute amount, only cerebrosides and sulfatides formed with nonhydroxyfatty acids were dramatically reduced. In the premyelin fraction, polyunsaturated fatty acids were increased in shi and mld, but decreased in qk. In this mutant, lignoceric (24:0) and nervonic (24:1) acids were drastically reduced. The amount of alkanes in the premylin material from qk and mld was reduced by 50%. The shi fraction was nearly free of alkanes. The maximal apparent coupling constant (hyperfine splitting constant, 2 Tll) was not affected in the mld and qk mutant, but was reduced in the shi mutant premyelin fraction. The Vc was dramatically increased in the qk, slightly decreased in the shi, and close to control in the mld. This work provides additional data on premyelin material prepared in various neurological mutants using continuous gradients in zonal rotor.(ABSTRACT TRUNCATED AT 400 WORDS)

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对正常小鼠和髓鞘异常突变小鼠(颤抖、颤抖和髓鞘缺乏)的前髓鞘部分进行生化和理化测定。
从颤抖(Qk)、颤抖(Shi)和髓磷脂缺陷(mld)突变小鼠和对照小鼠中,采用区向离心在区向转子上获得髓磷脂和比髓磷脂密度更大的髓磷脂前物质。在这些馏分上,我们进行了生化分析(脂质和脂肪酸),同时,我们通过自旋标记法确定了膜的物理结构。用超细分裂常数(2 Tll)测定膜的有序度和刚性,用旋转频率(Vc)测定膜的流动性。在对照小鼠中,前髓磷脂物质比纯髓磷脂含有较少的鞘脂,但羟基和非羟基脑苷和硫脂的相对比例在前髓磷脂物质和纯髓磷脂中相似。髓鞘前物质含有纯髓鞘中发现的一半的烷烃和更少的长链脂肪酸。(2 Tll)在髓磷脂材料中较低,而(Vc)在髓磷脂和髓磷脂材料中相似。在突变体中,在qk中,前髓磷脂部分中回收的物质量减少,而在shi和mld中都增加。神经鞘脂的相对含量在mld中是正常的,而在shi突变体中则不正常,特别是在α -羟基化脂肪酸形成的脑苷和未取代脂肪酸形成的硫脂中。脊髓鞘脂绝对含量在中度和中度均接近正常。在qk突变体的前髓磷脂片段中,鞘脂的相对和绝对数量都发生了巨大的变化。在百分比上,与非羟基脂肪酸形成的脑苷和硫脂显著减少,相反,与羟基脂肪酸形成的脑苷和硫脂增加。在绝对数量上,只有与非羟基脂肪酸形成的脑苷和硫脂显著减少。髓磷脂前组分中,多不饱和脂肪酸在shi和ld中增加,而在qk中减少。在这个突变体中,木质素酸(24:0)和神经酸(24:1)急剧减少。来自qk和mld的预甲基树脂材料中烷烃的含量降低了50%。shi馏分几乎不含烷烃。mld和qk突变体的最大表观耦合常数(超细分裂常数,2 Tll)不受影响,但shi突变体的前髓磷脂片段降低。Vc在qk中显著升高,在shi中略有降低,在mld中接近对照。这项工作提供了在不同的神经突变体中使用连续梯度在区域转子制备髓鞘材料的额外数据。(摘要删节为400字)
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