Sylvia Y. Low scite author profile

Skeletal muscle glutamine uptake via the transport system Nm is subject to rapid (t(1/2) = approximately 1 min) regulation after changes in cell volume by mechanisms that remain to be elucidated. Wortmannin (phosphatidylinositol 3-kinase inhibitor) but not rapamycin (inhibitor of p70S6 kinase activation) prevents both hypo-osmotic swelling-induced stimulation and hyperosmotic shrinkage-induced inhibition of Na+-dependent glutamine uptake in primary culture of rat skeletal muscle. G-protein inhibitors (cholera, pertussis toxins) also abolished responses of glutamine transport to cell volume changes whereas these responses were sustained in the presence of G-protein activators (MAS 7, lysophosphatidic acid). Swelling-induced activation of glutamine transport does not seem to involve release of autocrine factors because "conditioned" medium from swollen cells has no effect on previously unstimulated cells. System A amino acid transport exhibits responses to cell volume change that are opposite to those of system Nm, but these are also blocked by wortmannin. Active phosphatidylinositol 3-kinase appears to be required to enable muscle cells to exhibit rapid, volume-induced changes in amino acid transport when suitably stimulated.

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Mechanisms of Glutamine Transport in Rat Adipocytes and Acute Regulation by Cell Swelling

Ritchie

Baird

Christie

et al. 2001

Cell Physiol Biochem

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Adipose tissue is a major site for whole-body glutamine synthesis and we are investigating mechanisms and regulation of glutamine transport across the adipocyte membrane. Glutamine transport in adipocytes includes both high- and low-affinity Na⁺-dependent components (consistent with observed expression of ASCT2 and ATA2/SAT2 transporter mRNAs respectively) and a Na⁺-independent transport component (consistent with observed expression of LAT1/2 transporter mRNAs). Hypo-osmotic (235 mosmol/kg) swelling of adipocytes transiently stimulated glutamine uptake (180% increase at 0.05 mM glutamine) within 5 mins. Stimulation was blocked by the tyrosine kinase inhibitor genistein and the MAP kinase pathway inhibitors PD98059 and SB203580, but not by wortmannin (PI 3-kinase inhibitor) or rapamycin (mTOR pathway inhibitor). Cell-swelling also stimulated uptake of glucose but not MeAIB (indicating that ASCT2 rather than ATA2 was stimulated by swelling). Insulin (66 nM) treatment for up to 1 h stimulated Na⁺-dependent glutamine transport and increased adipocyte water space. Activation of the ERK1-2 MAP kinase pathway by cell swelling or insulin may be important for rapid activation of the ASCT2 glutamine transporter in adipocytes. Insulin may also exert a minor additional stimulatory effect on adipocyte glutamine transport indirectly via cell swelling. The mechanisms regulating glutamine transport in adipose tissue are distinct from those in other major sites of glutamine turnover in the body (notably liver and skeletal muscle).

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Sylvia Y. Low

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Mechanisms of Glutamine Transport in Rat Adipocytes and Acute Regulation by Cell Swelling

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