Geoffrey Burnstock 1929–2020

IF 0.2 4区 哲学 Q4 HISTORY & PHILOSOPHY OF SCIENCE
R. Alan North, Marcello Costa
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引用次数: 1

Abstract

Geoffrey Burnstock was a biomedical scientist who gained renown for his discovery that adenosine 5′-triphosphate (ATP) functions as an extracellular signalling molecule. Born in London and educated at King’s and University Colleges, he did postdoctoral work at Mill Hill and Oxford. He moved in 1959 to the Department of Zoology at the University of Melbourne because he sensed there a greater freedom to challenge established thinking in physiology. His group found that transmission from sympathetic and parasympathetic autonomic nerves to smooth muscle was in some places not mediated by the accepted chemical messengers (noradrenaline and acetylcholine). He amassed evidence that ATP was this non-adrenergic, non-cholinergic (NANC) transmitter, using biochemical, histological and electrophysiological approaches: heretically, he styled this ‘purinergic transmission’. Geoff further upset dogma in the 1970s by proposing ‘co-transmission’ in which some nerves released ATP in addition to either noradrenaline or acetylcholine. He distinguished pharmacologically P1 receptors (activated best by adenosine and blocked by xanthines) and P2 receptors (activated best by purine nucleotides such as ATP) and he proposed in 1985 that the latter embraced P2X (ion channel) and P2Y (G protein-coupled) subtypes: about ten years later these categories were substantiated by cDNA cloning. From 1975 until his retirement in 1997, Geoff was head of Anatomy and Embryology at University College London (UCL), which he developed energetically into a large and strong research department. Later, as head of the Autonomic Research Institute at the Royal Free (part of UCL), he continued to collaborate extensively, and founded several journals and international professional societies. He widely sought clinical benefit for his discoveries, and both P2X and P2Y receptors have been developed as the targets of useful therapeutics (gefapixant, clopidogrel). Geoff was proud of his modest, rather humble, background and eschewed formality. He may have smiled when his early discoveries were met with cynicism, even ridicule (‘pure-imagine’ transmission noted one amusing critic), but this just reinforced his resolve and encouraged his encyclopaedic oeuvre.

杰弗里·伯恩斯托克1929–2020
杰弗里·伯恩斯托克是一位生物医学科学家,他因发现5 ' -三磷酸腺苷(ATP)作为细胞外信号分子而闻名。他出生在伦敦,在国王学院和大学学院接受教育,在米尔希尔和牛津大学做博士后工作。1959年,他来到墨尔本大学动物学系,因为他觉得在那里可以更自由地挑战生理学的既定思维。他的研究小组发现,从交感神经和副交感自主神经到平滑肌的传递在某些地方不是由公认的化学信使(去甲肾上腺素和乙酰胆碱)介导的。他利用生化、组织学和电生理学的方法收集证据,证明ATP是一种非肾上腺素能、非胆碱能(NANC)的递质:他把这种递质称为“嘌呤能传递”。Geoff在20世纪70年代提出了“共传递”理论,其中一些神经除了释放去甲肾上腺素或乙酰胆碱外,还释放ATP。他从药理学上区分了P1受体(最好由腺苷激活,并被黄嘌呤阻断)和P2受体(最好由嘌呤核苷酸如ATP激活),他在1985年提出后者包含P2X(离子通道)和P2Y (G蛋白偶联)亚型:大约十年后,这些类别被cDNA克隆证实。从1975年到1997年退休,杰夫一直担任伦敦大学学院(UCL)解剖学和胚胎学主任,他积极地将该学院发展成为一个庞大而强大的研究部门。后来,作为皇家自由学院(伦敦大学学院的一部分)自治研究所的负责人,他继续广泛合作,并创办了几个期刊和国际专业协会。他广泛地为他的发现寻求临床效益,P2X和P2Y受体已被开发为有用的治疗药物(吉法匹昔,氯吡格雷)的靶点。杰夫对自己谦逊的背景感到自豪,他不拘泥于礼节。当他早期的发现遭到冷嘲冷讽甚至嘲笑时,他可能会微笑(一位有趣的评论家曾说过“纯粹的想象”),但这恰恰坚定了他的决心,鼓励了他百科全书式的创作。
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来源期刊
Historical Records of Australian Science
Historical Records of Australian Science HISTORY & PHILOSOPHY OF SCIENCE-
CiteScore
0.90
自引率
66.70%
发文量
22
期刊介绍: Historical Records of Australian Science is a bi-annual journal that publishes two kinds of unsolicited manuscripts relating to the history of science, pure and applied, in Australia, New Zealand and the southwest Pacific. Historical Articles–original scholarly pieces of peer-reviewed research Historical Documents–either hitherto unpublished or obscurely published primary sources, along with a peer-reviewed scholarly introduction. The first issue of the journal (under the title Records of the Australian Academy of Science), appeared in 1966, and the current name was adopted in 1980.
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