Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.21.1 (chymotrypsin)
 10,938 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Kidney allograft rejection is an inflammatory process dominated by lymphocytes. During rejection lymphocytes preferentially adhere to the peritubular capillary endothelium (PTCE), which acquires morphological features common to high endothelium. These observations indicate that PTCE is the site of lymphocyte entry into the rejecting renal allograft. Of the identified endothelial adhesion molecules, ICAM-1 was already expressed on the endothelium of normal kidneys, and its expression was strongly enhanced during rejection without site-specific restriction. VCAM-1 was not expressed on the endothelium of normal or syngeneic kidneys, but its expression was induced during allograft rejection not only in PTCE, but occasionally also on the endothelium of larger vessels. Sialyl Lewisx (sLex) showed a very restricted pattern of expression; endothelium was sLex-negative both in control and syngeneic kidneys. On the other hand, PTCE reacted strongly with anti-sLex antibody in allografts. When kidney frozen sections were treated with sialidase the binding of lymphocytes decreased by 70%. Low-dose chymotrypsin treatment of lymphocytes, known to remove L-selectin from the lymphocyte surface, decreased their binding to PTCE by 60%. Likewise lymphocyte adhesion to PTCE was inhibited by 70% by anti-sLex- and anti-L-selectin-antibodies and by sLex tetrasaccharide. Finally PTCE in the allografts, but not in syngeneic grafts or normal kidneys, bound an L-selectin-IgG fusion protein, indicating that ligands for L-selectin were induced during rejection.
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PMID:Sialyl Lewis(x)- and L-selectin-dependent site-specific lymphocyte extravasation into renal transplants during acute rejection. 751 29

Salivary immune responses depend on localization of immunocytes in salivary glands. We tested effects of anti-adhesion molecule antibodies and several ligand analogs on in vitro adherence of rat thoracic duct lymphocytes (TDL) to parotid and submandibular gland sections. While TDL adherence to both tissues was markedly decreased by anti-L-selectin mAbs, binding ability after removal of L-selectin by chymotrypsin or PMA suggested that other adhesion systems were involved. Integrin involvement in parotid interactions was indicated by inhibitory effects of anti-HEBF(PP), LFA-1, ICAM-1, and alpha4 integrin antibodies as well as by the PMA-enhanced adherence. Anti-Thy-1 partially inhibited TDL binding to parotid gland, and anti-CD44 partially inhibited submandibular binding. The majority of salivary gland-bound TDL were sIg+ B cells. FACS analysis showed differences in parotid and submandibular endogenous lymphocyte adhesion molecule expression with greater percentages of L-selectin, HEBF(PP), alpha4 integrin, LFA-1, ICAM-1, CD44, and Thy-1-positive cells present in parotid gland. While precise roles of known or novel adhesion molecules in salivary gland lymphocyte retention are not clear, these data suggest that selectins (parotid, submandibular), integrins (parotid), Thy-1 (parotid), and CD-44 (submandibular), as well as other unidentified molecules, are involved.
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PMID:The specificity of adhesive interactions between rat lymphocytes and salivary gland epithelia. 861 87

The chance of life-threatening complications occurring late after brain irradiation limits the efficacy of this form of cancer therapy. The molecular and cellular events that trigger radiation-induced brain damage are still unknown, but since they have the potential to serve as valuable targets for therapeutic intervention they are worth delineating. In this murine study, the effect of irradiation on the expression of molecules which are known to contribute to brain damage in other model systems was examined. Expression of genes encoding cytokines (TNF-alpha/beta, IL-1 alpha/beta, IL-2, IL-3, IL-4, IL-5, IL-6 and IFN-gamma), cytokine receptors (TNF-Rp55 and p75, IL-1R- p60 and p80, IFN-gamma R, and IL-6R), the cell adhesion molecule (ICAM-1), inducible nitric oxide synthetase (iNOS), anti-chymotrypsin (EB22/5.3), and the gliotic marker (GFAP) was evaluated over a 6-month period using a sensitive RNase protection assay (RPA). We had previously demonstrated that within 24 h of brain irradiation there is an acute transitory molecular response involving TNF-alpha, IL-1, ICAM-1, EB22/5.3 and GFAP. This study shows re-elevation of TNF-alpha, EB22/5.3 and GFAP mRNA levels at 2-3 months, but only TNF-alpha mRNA was overexpressed at 6 months. These time points are when neurological abnormalities are seen after higher doses. The data suggest that TNF-alpha may be involved in late brain responses to irradiation and could contribute to clinical symptoms.
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PMID:Delayed molecular responses to brain irradiation. 924 93

Wheat gluten causes gut inflammation in genetically predisposed individuals. We tested the hypothesis that wheat gluten is not only a target of adaptive immunity, but also modulates the function of APC. Dendritic cells (DC) derived from the bone marrow of BALB/c mice were exposed to chymotrypsin-treated wheat gluten. This induced DC maturation as estimated by all surface markers tested (MHC class II, CD40, CD54, and CD86). The effect was dose dependent, and, at 100 microg/ml gluten matched that caused by 10 ng/ml LPS. A role of endotoxin contamination was ruled out by demonstrating the resistance of wheat gluten effects to LPS antagonist polymyxin B. DC from LPS nonresponder strain C3H/HeJ were affected by wheat gluten, but not by LPS. Proteinase K-digested wheat gluten was unable to stimulate DC maturation. Wheat gluten induced a unique secretion pattern of selected cytokines and chemokines in DC. Classic pro- or anti-inflammatory mediators were not produced, in contrast to LPS. Rather, chemokines MIP-2 and keratinocyte-derived cytokine were secreted in large amounts. We conclude that wheat gluten lowers the threshold for immune responses by causing maturation of APC, by attracting leukocytes and increasing their reactivity state. In the presence of an appropriate genetic predisposition, this is expected to increase the risk of adverse immune reactions to wheat gluten or to other Ags presented.
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PMID:Wheat gluten causes dendritic cell maturation and chemokine secretion. 1526 26