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CATIO~IC drugs of different types and structures (antihistaminics, antiarrhythmics, sedatives, opiates, cytostatics and antibiotics, for example) are excreted in mammals by epithelial cells of the renal proximal tubules and by hepatocytes in the liver<sup>1-4</sup>. In the proximal tubules, two functionally disparate transport systems are involved which are localized in the basolateral and luminal plasma membrane and are different from the previously identified neuronal monoamine transporters and A TP-dependent multidrug exporting proteins<sup>1-3,5-12</sup>. Here we report the isolation of a complementary DNA from rat kidney that encodes a 556-amino-acid membrane protein, OCT1, which has the functional characteristics of organic cation uptake over the basolateral membrane of renal proximal tubules and of organic cation uptake into hepatocytes. OCTl is not homologous to any other known protein and is found in kidney, liver and intestine. As OCTl translocates hydrophobic and hydrophilic organic cations of different structures, it is considered to be a new prolotype of polyspecific transporters that are important for drug elimination.
The homology screening approach has been used to clone a new member of the guanine-nucleotidebinding-protein-coupled receptor superfamily from guinea pig uterus. The cloned cDNA encodes a 399-amino-acid protein and shows the highest amino acid similarity to members of the bombesin receptor family; 52% and 47% similarity to the gastrin-releasing-peptide (GRP) receptor and the neuromedin-B receptor, respectively. Bindingexperiments with the stably transfected LLC-PK<sub>1</sub> cell line expressing the new receptor protein confmned the bombesin-like nature of the cloned receptor. The relative order ofligand affinity, GRP = neuromedin C >> neuromedin B, suggests that the cloned cDNA represents the GRP subtype rather than the neuromedin-B subtype of bombesin receptors. Northern-blot analysis of mRNA species from several guinea-pig tissues showed that the mRNA for the new bombesin receptor subtype is expressed mainly in uteri of pregnant animals.
A cDNA encoding guinea-pig uterine substance P (SP) receptor has been isolated using the homology screening approach. Northern blot analysis reveals that the corresponding mRNA, of approx. 4.8 kb, is expressed in all tissues tested, but predominantly in the uteri of non-pregnant animals; during pregnancy its expression is reduced. The guinea-pig SP receptor was expressed in COS-7 cells and demonstrated relative Iigand affinity in the order: SP >> neurokinin A > neurokinin B.
Platelet interaction with the subendothelium is essential to limit blood loss after tissue injury. However, upon rupture of atherosclerotic plaques, this interaction may result in blood vessel occlusion leading to life threatening diseases such as myocardial infarction or stroke. Among the subendothelial matrix proteins, collagen is considered to be the most thrombogenic component as it directly activates platelets. Platelets interact with collagen, either indirectly through glycoprotein (GP) Ib-V-IX receptor complex, or directly through the major collagen receptor on the platelet surface, GPVI. The work presented here focused on studying the cellular regulation of GPVI. In addition, a possible role for GPVI in thrombus formation induced by atherosclerotic plaque material was investigated and it was found that GPVI plays an important role in this process. Using a recently published mitochondrial injury model, it was found that GPVI contains a cleavage site for a platelet-expressed metalloproteinase. Further studies showed that platelet activation by CRP, or thrombin induced down-regulation of GPIb, but not GPVI. In parallel, cellular regulation of GPV was studied and it was found that GPV is cleaved in vitro by the metalloproteinase ADAM17. In previous studies it was shown that injection of mice with the anti-GPVI mAb, JAQ1, induces GPVI down-regulation, which is associated with a strong, but transient, thrombocytopenia. Using new anti-GPVI mAbs, which bind different epitopes on the receptor, it is shown in this study that GPVI down-regulation occurs in an epitope-independent manner. Further experiments showed that antibody treatment induces a transient, but significant increase in bleeding time. Using different genetically modified mice, it is shown that, upon antibody injection, GPVI is both, shed from the platelet surface and internalized into the platelet. Signaling through the immunoreceptor tyrosine-based activation motif (ITAM) of the FcR chain is essential for both processes, while LAT and PLC2 are essential for the shedding process only. Antibody-induced increase in bleeding time and thrombocytopenia were absent in LAT deficient mice, showing that it is possible to uncouple the associated side effects from the down-regulation process. As antibody-induced GPVI internalization still occurs in LAT and PLC2 deficient mice, this suggests a novel signaling pathway downstream of GPVI that has not been described so far.