Characterization of [3H]morphine binding to interleukin-1-activated thymocytes

Sabita Roy; B. L. Ge; Horace H Loh; N. M. Lee

Characterization of [³H]morphine binding to interleukin-1-activated thymocytes

Sabita Roy, B. L. Ge, Horace H Loh, N. M. Lee

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Abstract

We have previously reported that interleukin-1-induced proliferation of thymocytes is accompanied by the appearance of [³H] morphine binding sites on these cells. In the present study, we have characterized these binding sites. They differ from classical opioid receptors in the brain in several ways, including: 1) lack of stereoselectivity; 2) relatively low affinity (K(d) = 50 nM) and high capacity (B(max) = 3 pmol/mg of protein); 3) binding is strongly inhibited by Ca⁺⁺, Mg⁺⁺, Mn⁺⁺ and Cl^- ions and 4) binding is inhibited by proteinase K or E and by phospholipase A₂ but not trypsin treatment of thymocyte membranes. The binding sites, which were found largely on the CD4⁺ subset of T-cells, also showed a preference for opioid alkaloids over peptides. These [³H]morphine binding sites may mediate a negative feedback effect on interleukin-1-induced proliferation of thymocytes in vivo.

Original language	English (US)
Pages (from-to)	451-456
Number of pages	6
Journal	Journal of Pharmacology and Experimental Therapeutics
Volume	263
Issue number	2
State	Published - 1992

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abstract = "We have previously reported that interleukin-1-induced proliferation of thymocytes is accompanied by the appearance of [3H] morphine binding sites on these cells. In the present study, we have characterized these binding sites. They differ from classical opioid receptors in the brain in several ways, including: 1) lack of stereoselectivity; 2) relatively low affinity (K(d) = 50 nM) and high capacity (B(max) = 3 pmol/mg of protein); 3) binding is strongly inhibited by Ca++, Mg++, Mn++ and Cl- ions and 4) binding is inhibited by proteinase K or E and by phospholipase A2 but not trypsin treatment of thymocyte membranes. The binding sites, which were found largely on the CD4+ subset of T-cells, also showed a preference for opioid alkaloids over peptides. These [3H]morphine binding sites may mediate a negative feedback effect on interleukin-1-induced proliferation of thymocytes in vivo.",

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AB - We have previously reported that interleukin-1-induced proliferation of thymocytes is accompanied by the appearance of [3H] morphine binding sites on these cells. In the present study, we have characterized these binding sites. They differ from classical opioid receptors in the brain in several ways, including: 1) lack of stereoselectivity; 2) relatively low affinity (K(d) = 50 nM) and high capacity (B(max) = 3 pmol/mg of protein); 3) binding is strongly inhibited by Ca++, Mg++, Mn++ and Cl- ions and 4) binding is inhibited by proteinase K or E and by phospholipase A2 but not trypsin treatment of thymocyte membranes. The binding sites, which were found largely on the CD4+ subset of T-cells, also showed a preference for opioid alkaloids over peptides. These [3H]morphine binding sites may mediate a negative feedback effect on interleukin-1-induced proliferation of thymocytes in vivo.

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Characterization of [³H]morphine binding to interleukin-1-activated thymocytes

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