The individual contributions of glycoprotein Ib (GPIb) and the seven transmembrane domain receptor (STDR) to increases in platelet [Ca2+]i induced by alpha-thrombin or the tethered ligand peptide (TLP; SFLLRNPNDKYEPF) have been determined in control platelets, in platelets where the thrombin binding site on GPIb was blocked with the monoclonal antibodies TM60 and LJ-Ib10, in platelets where access of thrombin to the STDR was blocked by polyclonal antipeptide antibodies, and in Bernard-Soulier platelets which constitutively lack GPIb. Curve-fitting analyses (LIGAND) showed that binding of PPACK-thrombin and alpha-thrombin to the moderate-affinity site was not detected in the best-fit model in the presence of anti-STDR antibodies although with alpha-thrombin there was also decreased binding at the high-affinity site. Conversely, TM60 blocked binding of alpha-thrombin to the high-affinity site but also decreased binding at the moderate affinity site. Separately, either TM60 or anti-TNA (150 micrograms/mL) reduced thrombin (0.5 nM)-induced elevations in [Ca2+]i to 50% of control values, but Ca2+ elevations were essentially abrogated (4.2 +/- 5%) when the two were added in combination. [Ca2+]i dose-response curves for alpha-thrombin were curvilinear and were only 50% of controls in the presence of anti-GPIb or anti-STDR antibodies at up to 10 nM alpha-thrombin, with their greatest sensitivity being below 2 nM. With Bernard-Soulier platelets, changes in [Ca2+]i were not detectable at < or = 0.5 nM alpha-thrombin but were also 50% of controls at 5-10 nM alpha-thrombin. [Ca2+]i responses to TLP (1-100 microM) of antibody-blocked platelets were identical to those of controls whereas responses were approximately 50% of controls in Bernard-Soulier platelets. The rate of increase in [Ca2+]i in controls was twice that seen in antibody-blocked platelets and about 5-fold greater than in Bernard-Soulier platelets. These results demonstrate that both GPIb and the STDR are required to ensure the optimal rate and extent of platelet activation over a range of alpha-thrombin concentrations (0.3-10 nM) and that the STDR corresponds to the previously described moderate-affinity thrombin receptor.
Tail suspension-induced immobility in rodents is specifically antagonized by antidepressants, and has been proposed as an animal model of depression. Marked differences in tail suspension-induced immobility were observed among nine inbred mouse strains, ranging from 1 +/- 0.3 to 96 +/- 8-s in a 300-s test period. Moreover, these nine strains could be ranked in four distinct groups based on their immobilities, in which Balb/cJ and DBA/2J mice displayed the highest and the lowest immobility times, respectively. While significant differences in open field activity were also observed among strains, these differences were unrelated to their immobility times in the tail suspension test. These findings strongly suggest that performance in this proposed animal model of depression is under specific genetic control, and may provide a useful tool to study neurochemical and neuroendocrine correlates of depression and antidepressant action.
Previous results have shown that both GPIb and the seven transmembrane domain receptor (STDR) are required for optimal thrombin-induced platelet activation (Greco et al., 1996). Limited degradation (approximately 10%) of GPIb and the STDR by elastase reduced the Ca2+ response to 0.5 nM alpha-thrombin by only 10% whereas Serratia marcescens metalloprotease reduced the Ca2+ response by 80% and fully abrogated high-affinity thrombin binding and aggregation. vWF/ristocetin-induced agglutination was only slightly reduced (20%) while Ca2+ and aggregation response to higher thrombin concentrations were retained. At increasing elastase and Serratia protease concentrations, degradation of the STDR proceeded from the amino-terminal domain, but Ca2+ responses to the tethered ligand peptide SFLLRNPNDKYEPF were not affected by either protease. These results show that both putative thrombin receptors are susceptible to protease degradation and suggest that Serratia protease is able to differentiate the GPIb-mediated events associated with thrombin activation from those associated with ristocetin-induced agglutination.
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