Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0086543 (cataract)
 29,165 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The Nonobese Diabetic mouse (NOD mouse) is an established model of autoimmune diabetes mellitus. While all colonies of NOD mice are derived from a single diabetic female detected during the breeding of a cataract-prone strain of mice, some of the dispersed colonies have been separated for many generations and express varying levels of diabetes. It is unclear to what extent this is due to environmental factors such as diet factor or a result of the varied origins of the colonies. Here we compare the incidence of diabetes and severity of insulitis in two divergent lines of NOD mice that differ in incidence of disease, but are maintained in the same environment. F1 crosses were performed and the progeny found to express the disease incidence of the low incidence line. This finding is consistent with either a dominant resistance gene(s) being responsible for reduced penetrance of disease or a transmissible environmental agent reducing the severity of the autoimmune process.
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PMID:High and low diabetes incidence nonobese diabetic (NOD) mice: origins and characterisation. 166 48

To define the role of platelet-activating factor (PAF) in anaphylactic shock in the mouse, the suppressive effect of CV-3988, a PAF antagonist, on active and passive anaphylactic shock was studied. Various mouse strains treated or not treated with Bordetella pertussis (B. pertussis) were used. We found that the effect of CV-3988 on anaphylactic shock in the mice that were actively sensitized with bovine serum albumin plus B. pertussis differed markedly according to mouse strain. CV-3988 suppressed the anaphylactic shock in C3H/He and CBA/JN mice at a low dose of 3 mg/kg, whereas antagonists to other mediators such as histamine, serotonin, thromboxane A2 and leukotrienes did not show a suppressive effect. This suggests that PAF plays a major role in anaphylactic shock in these strains. On the other hand, CV-3988 did not suppress active anaphylactic shock in cataract Shionogi (CTS), NOD and DS strains even at a high dose of 30 mg/kg, which could be interpreted to suggest that PAF is not active in these strains. However, this possibility was ruled out based on the similar results obtained in passive anaphylactic shock and PAF-induced shock in these mice. Passive anaphylactic shock in CTS mice mediated by IgG1 antibody was markedly suppressed by CV-3988 but not at all by antagonists to other mediators. Furthermore, the suppressive action of CV-3988 against passive anaphylactic shock, and PAF-induced shock was greatly attenuated when the mice were pretreated with B. pertussis. From these results, the conclusion can be drawn that PAF is the main mediator of active and passive anaphylactic shock in the mouse in general, even though the effect of CV-3988 differs depending on the mouse strain and on whether or not B. pertussis treatment is used.
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PMID:Differential effect of a PAF antagonist CV-3988 on active and passive anaphylactic shock in various mouse strains. 181 38

The cataract Shionogi (CTS) mouse characterized by cataracts and microphthalmia is a sister strain of the NOD mouse. We have made the immunological characterization of the CTS mouse by means of in vitro assays. Splenocytes of the CTS mouse were very low in the responsiveness to T cell mitogens such as Con A and PHA but not to a B cell mitogen, LPS. The production of IL 2 and expression of IL 2-receptor of spleen cells after in vitro stimulation with Con A decreased in the CTS mouse, when compared with those in the NOD and the other reference strains. In mixed lymphocyte culture, CTS splenocytes did not proliferate and did not generate cytotoxic T lymphocytes when cocultured with splenocytes of the C3H/He mouse. The NK activity against YAC-1 target cells was lower in the CTS mouse than in the C3H/He mouse, an NK high responder, but higher than in the NOD mouse, a low responder. These results suggest that the CTS mouse is deficient in T cells. Subset analysis of splenic lymphocytes of the CTS mouse using flow cytometry revealed that the percentage of T cells in the CTS mouse was significantly lower than those in the reference strains, which was consistent with the reduced responsiveness to T cell mitogens in the CTS mouse. The deficiency in the Ly-2+ T cell subset was particularly striking. However, the response to PHA of the splenocytes of the CTS mouse was normalized when T cells were enriched by nylon wool-passing and cell-sorting. Therefore, it seems that decreased T cell activity is due to a decrease in T cell number and not to dysfunction of individual T cells.
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PMID:Immune deficiency of the CTS mouse. I. Deficiency of in vitro T cell-mediated immune response. 214 24

The diabetogenic major histocompatibility complex (MHC) (H2(g7)) of NOD mice comprises contributions from several class II loci collectively designated as Idd1. Introduction of the H2(gx) haplotype from the related but diabetes-resistant cataract Shionogi (CTS) strain demonstrated an additional MHC-linked locus designated Idd16. The NOD-related alloxan resistant (ALR)/Lt strain is also characterized by the H2(gx) haplotype, which does not differ from H2(g7) from the class I H2-K(d) gene distally through the class II and into the class III region. Polymorphisms distal to the heat shock protein 70 locus (Hspa1b) include a rare H2-D(dx) rather than the H2(g7) encoded D(b) allele. Two differential-length NOD.ALR-H2(gx) congenic stocks (D.R1 and D.R2), both containing H2-D(dx), significantly suppressed diabetogenesis. This protection was lost when ALR alleles between the class III region and H2-D were removed in a shorter interval congenic (D.R3). Because no differences were observed in the ALR-derived interval extending 0.41 mB proximal to H2-K in any of these congenic stocks, a component of what was originally designated "Idd16" was sited to an interval shorter than 7.33 mB, distinguishing D.R2 from D.R3. Evidence supporting the candidacy of the ALR/CTS-shared H2-D(dx) MHC class I variant present in both diabetes-resistant stocks, but not the susceptible stock, is discussed.
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PMID:Major histocompatibility complex-linked diabetes susceptibility in NOD/Lt mice: subcongenic analysis localizes a component of Idd16 at the H2-D end of the diabetogenic H2(g7) complex. 1585 53

Diabetic retinopathy (DR) is an ocular complication of diabetes mellitus (DM). International Diabetic Federations (IDF) estimates up to 629 million people with DM by the year 2045 worldwide. Nearly 50% of DM patients will show evidence of diabetic-related eye problems. Therapeutic interventions for DR are limited and mostly involve surgical intervention at the late-stages of the disease. The lack of early-stage diagnostic tools and therapies, especially in DR, demands a better understanding of the biological processes involved in the etiology of disease progression. The recent surge in literature associated with NOD-like receptors (NLRs) has gained massive attraction due to their involvement in mediating the innate immune response and perpetuating inflammatory pathways, a central phenomenon found in the pathogenesis of ocular diseases including DR. The NLR family of receptors are expressed in different eye tissues during pathological conditions suggesting their potential roles in dry eye, ocular infection, retinal ischemia, cataract, glaucoma, age-related macular degeneration (AMD), diabetic macular edema (DME) and DR. Our group is interested in studying the critical early components involved in the immune cell infiltration and inflammatory pathways involved in the progression of DR. Recently, we reported that NLRP3 inflammasome might play a pivotal role in the pathogenesis of DR. This comprehensive review summarizes the findings of NLRs expression in the ocular tissues with special emphasis on its presence in the retinal microglia and DR pathogenesis.
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PMID:NOD-like Receptors in the Eye: Uncovering Its Role in Diabetic Retinopathy. 3201 87