Down syndrome clinical symptoms are manifested in transfected cells and transgenic mice overexpressing the human Cu/Zn-superoxide dismutase gene.

Journal de physiologie Pub Date : 1990-01-01
Y Groner, O Elroy-Stein, K B Avraham, R Yarom, M Schickler, H Knobler, G Rotman
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Abstract

Down syndrome (DS), the phenotypic expression of human trisomy 21, is presumed to result from overexpression of certain genes residing on chromosome 21 at the segment 21q22-the Down locus. The "housekeeping" enzyme CuZn-superoxide dismutase (CuZnSOD) is encoded by a gene from that region and its activity is elevated in DS patients. To investigate the possible involvement of CuZnSOD gene dosage in the etiology of the syndrome we have developed both cellular and animal models which enabled us to investigate the physiological consequences resulting from overexpression of the CuZnSOD gene. 1. Rat PC12 cells expressing elevated levels of transfected human CuZnSOD gene were generated. These transformants (designated PC12-hSOD) closely resembled the parental cells in their morphology, growth rate, and response to nerve growth factor, but showed impaired neurotransmitter uptake. The lesion was localized to the chromaffin granule transport mechanism. We found that the pH gradient (delta pH) across the membrane, which is the main driving force for amine transport, was diminished in PC12-hSOD granules. These results show that elevation of CuZnSOD activity interferes with the transport of biogenic amines into chromaffin granules. Since neurotransmitter uptake plays an important role in many processes of the central nervous system, CuZnSOD gene-dosage may contribute to the neurobiological abnormalities of Down's syndrome. 2. As an approach to the development of an animal model for Down syndrome, several strains of transgenic mice that carry the human CuZnSOD gene have been prepared. These animals express the transgene in a manner similar to that of humans, with 0.9 and 0.7-kilobase transcripts in a 1:4 ratio, and synthesize the human enzyme in an active form capable of forming human-mouse enzyme heterodimers. CuZnSOD activity is increased from 1.6 to 6.0-fold in the brains of four transgenic strains and to an equal or lesser extent in several other tissues. 3. To investigate the possible involvement of CuZnSOD gene dosage in the neuropathological symptoms of Down's syndrome, we analyzed the tongue muscle of the transgenic mice that express elevated levels of human CuZnSOD. The tongue neuromuscular junctions (NMJ) in the transgenic animals exhibited significant pathological changes, namely, withdrawal and destruction of some terminal axons and the development of multiple small terminals. The ratio of terminal axon area to postsynaptic membrane decreased, and secondary folds were often complex and hyperplastic. The morphological changes in the transgenic NMJ were similar to those previously seen in muscles of aging mice and rats as well as in tongue muscle of patients with Down's syndrome.(ABSTRACT TRUNCATED AT 400 WORDS)

唐氏综合征临床症状表现在转染过表达人铜/锌超氧化物歧化酶基因的细胞和转基因小鼠中。
唐氏综合征(DS)是人类21三体的表型表达,据推测是由于位于21号染色体21q22片段(唐氏位点)的某些基因过度表达所致。“管家”酶cuzn -超氧化物歧化酶(CuZnSOD)由来自该区域的基因编码,其活性在退行性硬化症患者中升高。为了研究CuZnSOD基因剂量在该综合征病因学中的可能作用,我们建立了细胞和动物模型,使我们能够研究CuZnSOD基因过表达引起的生理后果。1. 转染人CuZnSOD基因后,大鼠PC12细胞表达水平升高。这些转化体(命名为PC12-hSOD)在形态、生长速度和对神经生长因子的反应方面与亲本细胞非常相似,但表现出神经递质摄取受损。病变定位于染色质颗粒的转运机制。我们发现,在PC12-hSOD颗粒中,膜上的pH梯度(δ pH)减少了,而pH梯度是胺运输的主要驱动力。这些结果表明,CuZnSOD活性的升高干扰了生物胺向染色质颗粒的转运。由于神经递质摄取在中枢神经系统的许多过程中起重要作用,CuZnSOD基因剂量可能与唐氏综合征的神经生物学异常有关。2. 作为开发唐氏综合征动物模型的一种方法,已经制备了几种携带人类CuZnSOD基因的转基因小鼠。这些动物以与人类相似的方式表达转基因,以1:4的比例转录0.9和0.7千碱基,并以活性形式合成人类酶,能够形成人类-小鼠酶异源二聚体。CuZnSOD活性在4个转基因菌株的脑组织中从1.6倍提高到6.0倍,在其他组织中也有相同或更小程度的提高。3.为了探讨CuZnSOD基因剂量与唐氏综合征神经病理症状的关系,我们分析了表达人CuZnSOD基因升高的转基因小鼠舌肌。转基因动物舌神经肌肉连接(NMJ)出现了明显的病理变化,即部分末端轴突的退出和破坏,以及多个小末端的发育。末梢轴突面积与突触后膜面积之比减小,继发褶皱复杂增生。转基因NMJ的形态学变化与之前在衰老小鼠和大鼠肌肉以及唐氏综合征患者舌肌中观察到的相似。(摘要删节为400字)
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