Rovere C, Viale A, Nahon J, Kitabgi P
Institut de pharmacologie Moléculaire et Cellulaire du CNRS, Université de Nice-Sophia Antipolis, Valbonne, France.
Endocrinology. 1996 Jul;137(7):2954-8. doi: 10.1210/endo.137.7.8770919.
Mice homozygous for the fat mutation exhibit marked hyperpro-insulinemia and develop late onset obesity. The fat mutation was recently mapped to the gene encoding carboxypeptidase E (CpE), a processing enzyme involved in trimming C-terminal paired basic residues from prohormone-derived peptides. The mutation resulted in a loss of CpE activity that correlated with aberrant proinsulin processing. Neurotensin (NT) and melanin-concentrating hormone (MCH) are two neuropeptides that, among other central effects, inhibit food intake. Here, using RIA techniques coupled to reverse phase HPLC, we analyzed the processing products derived from the NT and MCH precursors in the brain of +/fat and fat/fat mice. Compared to control hypothalamic and brain extracts, fat/fat extracts had markedly reduced levels (>80%) of NT and neuromedin N (NN), another active pro-NT-derived peptide. In contrast, they exhibited high concentrations of biologically inactive NT-KR and NN-KR (NT and NN with a C-terminal Lys-Arg extension), two peptides that were undetectable in control extracts. MCH, which is located at the C-terminus of its precursor, was present in 2- to 3-fold higher amounts in fat/fat than in +/fat hypothalamus. Neuropeptide-Glu-Ile, another pro-MCH-derived neuropeptide separated from MCH by an Arg-Arg sequence, was present in amounts similar to those of MCH in control extracts. In contrast, neuropeptide-Glu-Ile was more than 10 times less abundant than MCH in extracts from obese mice. Our data are consistent with a deficit in CpE activity affecting the maturation of both pro-NT and pro-MCH. This suggests that abnormal neuropeptide and hormone precursor processing is a general phenomenon in fat/fat mice and supports the idea that defects in the production of neuropeptide involved in the control of feeding might lead to the development of obesity in these animals.
纯合子脂肪突变小鼠表现出明显的高胰岛素原血症,并出现迟发性肥胖。脂肪突变最近被定位到编码羧肽酶E(CpE)的基因上,CpE是一种加工酶,参与从激素原衍生肽中去除C末端成对碱性残基。该突变导致CpE活性丧失,这与胰岛素原加工异常相关。神经降压素(NT)和促黑素细胞激素(MCH)是两种神经肽,除其他中枢作用外,还能抑制食物摄入。在此,我们使用放射免疫分析技术结合反相高效液相色谱法,分析了+/脂肪和脂肪/脂肪小鼠大脑中NT和MCH前体衍生的加工产物。与对照下丘脑和脑提取物相比,脂肪/脂肪提取物中NT和神经介素N(NN)(另一种活性NT衍生肽)的水平显著降低(>80%)。相反,它们表现出高浓度的无生物学活性的NT-KR和NN-KR(C末端带有赖氨酸-精氨酸延伸的NT和NN),这两种肽在对照提取物中无法检测到。位于其前体C末端的MCH在脂肪/脂肪小鼠下丘脑中的含量比+/脂肪小鼠高2至3倍。神经肽-Glu-Ile是另一种由MCH前体衍生的神经肽,通过精氨酸-精氨酸序列与MCH分离,其在对照提取物中的含量与MCH相似。相比之下,在肥胖小鼠提取物中,神经肽-Glu-Ile的丰度比MCH低10倍以上。我们的数据与CpE活性不足影响NT和MCH前体成熟一致。这表明神经肽和激素前体加工异常是脂肪/脂肪小鼠中的普遍现象,并支持这样一种观点,即参与进食控制的神经肽产生缺陷可能导致这些动物肥胖的发生。
