The effect of osmolarity on human placental mitochondria function

The effect of osmolarity on human placental mitochondria function

Human placental explants survive large changes in osmolarity, but the mechanism for this property is unknown. The goal of this work was to examine the effect of osmolarity on human placental mitochondria. Mitochondria from human term placenta were isolated by differential centrifugation, and incubat...

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Bibliographic Details
Published in:The international journal of biochemistry & cell biology Vol. 27; no. 8; pp. 795 - 803
Main Authors: Martínez, Federico, Pardo, Juan Pablo, Flores-Herrera, Oscar, Espinosa-García, Ma.Teresa
Format: Journal Article
Language:English
Published: Netherlands Elsevier Ltd 01-08-1995
Subjects:
Adenosine Triphosphatases - metabolism
Animals
Apyrase - metabolism
Biological Transport
Calcium - metabolism
Calcium transport
Female
Humans
Hydrolysis of adenine nucleotides
Membrane potential
Microscopy, Electron
Mitochondria - enzymology
Mitochondria - physiology
Morphology
Osmolar Concentration
Osmolarity
Oxygen consumption
Oxygen Consumption - physiology
Placenta - enzymology
Placenta - ultrastructure
Placental mitochondria
Pregnancy
Rats
Placental mitochondria
Hydrolysis of adenine nucleotides
Osmolarity
Morphology
Oxygen consumption
Calcium transport
Membrane potential
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Summary:Human placental explants survive large changes in osmolarity, but the mechanism for this property is unknown. The goal of this work was to examine the effect of osmolarity on human placental mitochondria. Mitochondria from human term placenta were isolated by differential centrifugation, and incubated in the presence of different concentrations of sucrose or KCl, to modify the osmolarity of the media. Rat liver mitochondria were used as control. The parameters studied were: respiration rate, adenine nucleotide hydrolysis, calcium transport, membrane potential, and mitochondrial morphology. Stimulation of the mitochondrial respiration rate and an increase in Ca 2+ transport was observed in the presence of K +. With sucrose, Ca 2+ transport showed a complex kinetic behavior, whereas the respiratory control was slightly diminished. Although the ATPase activity was enhanced in the absence of a respiratory substrate, no change in ATP hydrolysis due to osmolarity was observed. ADP hydrolysis was inhibited by a high K + concentration, but not by sucrose. The membrane potential was not modified by osmolarity, even in the absence of sucrose or K + in the medium. Mitochondria isolated with KCl showed aggregation, whereas dispersed mitochondria were observed with sucrose. This study showed that sucrose-induced changes in osmolarity, does not modify metabolic and transport properties of human placental mitochondria, whereas KCl-induced osmolarity changes does affect these functions.
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ISSN:1357-2725
1878-5875
DOI:10.1016/1357-2725(95)00050-Y