Loss of N-glycolylneuraminic acid in humans: Mechanisms, consequences, and implications for hominid evolution.

IF 2.6 2区 地球科学 Q1 ANTHROPOLOGY
A Varki
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引用次数: 0

Abstract

The surface of all mammalian cells is covered with a dense and complex array of sugar chains, which are frequently terminated by members of a family of molecules called sialic acids. One particular sialic acid called N-glycolylneuraminic acid (Neu5Gc) is widely expressed on most mammalian tissues, but is not easily detectable on human cells. In fact, it provokes an immune response in adult humans. The human deficiency of Neu5Gc is explained by an inactivating mutation in the gene encoding CMP-N-acetylneuraminic acid hydroxylase, the rate-limiting enzyme in generating Neu5Gc in cells of other mammals. This deficiency also results in an excess of the precursor sialic acid N-acetylneuraminic acid (Neu5Ac) in humans. This mutation appears universal to modern humans, occurred sometime after our last common ancestor with the great apes, and happens to be one of the first known human-great ape genetic differences with an obvious biochemical readout. While the original selection mechanisms and major biological consequences of this human-specific mutation remain uncertain, several interesting clues are currently being pursued. First, there is evidence that the human condition can explain differences in susceptibility or resistance to certain microbial pathogens. Second, the functions of some endogenous receptors for sialic acids in the immune system may be altered by this difference. Third, despite the lack of any obvious alternate pathway for synthesis, Neu5Gc has been reported in human tumors and possibly in human fetal tissues, and traces have even been detected in normal human tissues. One possible explanation is that this represents accumulation of Neu5Gc from dietary sources of animal origin. Finally, a markedly reduced expression of hydroxylase in the brains of other mammals raises the possibility that the human-specific mutation of this enzyme could have played a role in human brain evolution.

人类n -糖基神经氨酸的丧失:机制、后果和对人类进化的影响。
所有哺乳动物细胞的表面都覆盖着密集而复杂的糖链阵列,这些糖链经常被称为唾液酸的分子家族成员终止。一种特殊的唾液酸被称为n -糖基神经氨酸(Neu5Gc),在大多数哺乳动物组织中广泛表达,但在人类细胞中不易检测到。事实上,它会引起成年人的免疫反应。人类缺乏Neu5Gc的原因是编码cmp - n -乙酰神经氨酸羟化酶的基因发生了失活突变,cmp - n -乙酰神经氨酸羟化酶是在其他哺乳动物细胞中生成Neu5Gc的限速酶。这种缺乏也会导致人类前体唾液酸n -乙酰神经氨酸(Neu5Ac)过量。这种突变对现代人来说似乎是普遍的,发生在我们与类人猿的最后一个共同祖先之后的某个时候,碰巧是人类与类人猿之间最早的遗传差异之一,具有明显的生化读出。虽然这种人类特异性突变的原始选择机制和主要生物学后果仍然不确定,但目前正在寻找一些有趣的线索。首先,有证据表明,人类状况可以解释对某些微生物病原体的易感性或耐药性差异。其次,免疫系统中一些内源性唾液酸受体的功能可能会因这种差异而改变。第三,尽管缺乏任何明显的替代合成途径,但Neu5Gc已经在人类肿瘤中被报道,可能在人类胎儿组织中也有,甚至在正常人体组织中也检测到微量。一种可能的解释是,这代表了Neu5Gc从动物来源的饮食中积累。最后,在其他哺乳动物的大脑中羟基化酶的表达明显减少,提出了这种酶的人类特异性突变可能在人类大脑进化中发挥作用的可能性。
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来源期刊
CiteScore
4.80
自引率
0.00%
发文量
3
审稿时长
3-8 weeks
期刊介绍: The American Journal of Physical Anthropology (AJPA) is the official journal of the American Association of Physical Anthropologists. The Journal is published monthly in three quarterly volumes. In addition, two supplements appear on an annual basis, the Yearbook of Physical Anthropology, which publishes major review articles, and the Annual Meeting Issue, containing the Scientific Program of the Annual Meeting of the American Association of Physical Anthropologists and abstracts of posters and podium presentations. The Yearbook of Physical Anthropology has its own editor, appointed by the Association, and is handled independently of the AJPA. As measured by impact factor, the AJPA is among the top journals listed in the anthropology category by the Social Science Citation Index. The reputation of the AJPA as the leading publication in physical anthropology is built on its century-long record of publishing high quality scientific articles in a wide range of topics.
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