Biological barriers and medicine
Carl A. Goresky
McGill University Medical Clinic, Montreal General Hospital,
Montreal, Quebec
Abstract
Career support provides the essentiel element needed for the
detailed development of thematic areas of inquiry. Dr Goresky
outlines how career support provided for him the substratum for
the investigation and definition of tracer exchange processes in the
liver. Classical interstitial substances (labeled albumin, inulin,
sucrose, and sodium) and labeled water were found to undergo flow
limited distribution in the liver. An excluded volume phenomenon
created systematic variation in accessible interstitial space (that is,
Disse space) values, smaller for larger molecular weight substances.
Labeled rubidium entered liver cells in a concentrative fashion
(retum from cells was very small, early in time). Labeled glucose
liver cell entry was found to exhibit the characteristics of a carrier-mediated
membrane transport process. Labeled galactose showed
saturation of intracellular sequestration, as well as of the cell entry
process, the former at much lower galactose concentrations.
Straight-chain labeled monohydric alcohols were found to enter
liver cells in a flow-limited fashion. Labeled ethanol consumption,
when related to underlying steady ethanol values, exhibited
Michaelis-Menten kinetics. A substantial extra intracellular enzymic
space of distribution was found for the C3- and
C4- straight-chain alcohols, predicted by the kinetics.
Development of the tracer approach allowed the differentiation and
characterization of the processes by which substances penetrate the
cell membrane barrier and those resulting in intracellular
sequestration.
Clin Invest Med 1995; 18 (6): 484-501
Table of contents: CIM vol. 18, no. 6
Copyright 1996 Canadian Medical Association