2020
DOI: 10.3389/fphys.2020.00069
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Glycemia Regulation: From Feedback Loops to Organizational Closure

Abstract: Endocrinologists apply the idea of feedback loops to explain how hormones regulate certain bodily functions such as glucose metabolism. In particular, feedback loops focus on the maintenance of the plasma concentrations of glucose within a narrow range. Here, we put forward a different, organicist perspective on the endocrine regulation of glycaemia, by relying on the pivotal concept of closure of constraints. From this perspective, biological systems are understood as organized ones, which means that they are… Show more

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Cited by 34 publications
(25 citation statements)
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“…Let us consider, for example, the different and competing production mechanisms involved in the metabolism of glucose and glycogen in mammals (glucose intake, glycolysis, glycogenolysis, gluconeogenesis, glucose transport, etc. ), which need to be coordinated by hormones such as insulin and glucagon released by the pancreas [ 30 ]. The problem of avoiding conflict and coordinating production mechanisms with competing requirements is common to all biological systems.…”
Section: Production and Control Mechanismsmentioning
confidence: 99%
“…Let us consider, for example, the different and competing production mechanisms involved in the metabolism of glucose and glycogen in mammals (glucose intake, glycolysis, glycogenolysis, gluconeogenesis, glucose transport, etc. ), which need to be coordinated by hormones such as insulin and glucagon released by the pancreas [ 30 ]. The problem of avoiding conflict and coordinating production mechanisms with competing requirements is common to all biological systems.…”
Section: Production and Control Mechanismsmentioning
confidence: 99%
“…Organization can be understood in terms of static spatial relationships such as in this case, but also in terms of dynamic relationships between components and processes that undergo continuous transformations. In fact, if one focuses on processes and on the activities of components that realize living organisms, regularity and constancy might be the exception rather than the rule, or even the sign of a pathology (Bich et al, 2020). Organisms are adaptive systems whose internal dynamics and the fate and behavior of parts depend on the state of the system and its environment (Bich et al, 2016).…”
Section: What Is Life? An Organizational Viewmentioning
confidence: 99%
“…The other strategy is the new mechanistic one, which aims to provide a causal explanation of how the individual parts of the systems, or the parts of one or several subsystems, functionally operate and interact within autonomous systems to realize specific phenomena. This strategy has been recently applied to model and analyze phenomena such as mammary organogenesis (Montevil et al, 2016) and glycaemia regulation (Bich et al, 2020) from an autonomy perspective. Network and mechanistic strategies provide different information on the system.…”
Section: Is Biology Marginal? Insights For An Epistemology Of Complex Systemsmentioning
confidence: 99%
“…mutual dependence such that they both depend on and contribute to maintaining each other. Thus biological organisation is an interlevel affair, involving downward causation as well as upwards emergence, thus enabling teleology [ 12 , 99 ]. From the viewpoint of this paper, these authors are identifying specific sets of levels where effective interlevel causal closure occurs: the topmost level links to the bottom-most level to close the dynamic loop that leads to biological emergence.…”
Section: Interlevel Causal Closure: Biologymentioning
confidence: 99%