Siu-Tai Tsim scite author profile

Siu-Tai Tsim

3Publications

71Citation Statements Received

48Citation Statements Given

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Hong Kong University of Science and Technology, University of Hong Kong

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Stimulation of cAMP accumulation by the cloned Xenopus melatonin receptor through G_i and G_z proteins

1995

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The Xenopus melatonin receptor was expressed in human embryonic kidney 293 cells and assayed for cAMP accumulation. In transfected 293 cells expressing the melatonin receptor, melatonin dose-dependently inhibited the endogenous adenylyi cyclases. In contrast, melatonin stimulated the accumulation of cAMP in cells co-expressing the type II adenylyl cyclase. Both the inhibitory and stimulatory responses to melatonin were mediated via Gi-like proteins as they were blocked by pertussis toxin. Upon co-transfection with the oz subunit of G~, the ability of melatonin to regulate both type H and the endogenous adenylyl cyclases became refractory to pertussis toxin, indicating that the melatonin receptor can also couple to Gz. However, other pertussis toxin-insensitive G proteins such as Gq, G~2 and G13 were unable to interact with the melatonin receptor.

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Regulation of calcium influx and phospholipase C activity by indoleamines in dinoflagellate Crypthecodiniurn cohnii

Tsim

Wong

1998

Journal of Pineal Research

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Exogenous indoleamines such as melatonin and 5-methoxytryptamine have been shown to induce cyst formation (encystment) in many species of dinoflagellate. Induction of inositol phosphates formation by indoleamine has previously been demonstrated in Crypthecodinium cohnii. In addition, depletion of extracellular Ca2+ blocks the indoleamine-induced encystment. In the present study, 12 indoleamines (including melatonin and related compounds) were examined for their abilities to induce Ca2+ influx, inositol phosphates formation, and encystment in C. cohnii. The results showed that melatonin, 5-methoxytryptamine, and the peptide toxin mastoparan stimulated 45Ca2+ influxes in dose- and time-dependent manners. The EC50 values of 5-methoxytrypramine and mastoparan to stimulate 45Ca2+ uptake were 2 mM and 35 microM, respectively. The 5-methoxytryptamine- and mastoparan-induced 45Ca2+ influx were partially attenuated by the calcium channel blockers, verapamil and ruthenium red. A series of indoleamines were examined for their structure-activity relationship on the induction of encystment and formation of inositol phosphates. Melatonin-induced inositol phosphates formation was completely blocked by U73122, indicating the possible involvement of phospholipase C. Taken together, we conclude that indoleamines may induce encystment of the dinoflagellate C. cohnii via parallel activation of phospholipase C and Ca2+ influx signaling pathways. However, activation of phospholipase C and Ca2+ influx are not always necessary or sufficient for inducing encystment. Also, these data provided the first direct evidence of a Ca2+ influx regulating mechanism in dinoflagellate C. cohnii.

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The molecular mechanism of indoleamine-induced encystment in dinoflagellates

Tsim¹

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Siu-Tai Tsim

Stimulation of cAMP accumulation by the cloned Xenopus melatonin receptor through G_i and G_z proteins

Regulation of calcium influx and phospholipase C activity by indoleamines in dinoflagellate Crypthecodiniurn cohnii

The molecular mechanism of indoleamine-induced encystment in dinoflagellates

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Siu-Tai Tsim

Stimulation of cAMP accumulation by the cloned Xenopus melatonin receptor through Gi and Gz proteins

Regulation of calcium influx and phospholipase C activity by indoleamines in dinoflagellate Crypthecodiniurn cohnii

The molecular mechanism of indoleamine-induced encystment in dinoflagellates

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Stimulation of cAMP accumulation by the cloned Xenopus melatonin receptor through G_i and G_z proteins