血清腺苷脱氨酶检测在几种自身免疫性疾病中的临床意义研究

目的:探讨血清腺苷脱氨酶(ADA)检测在几种自身免疫性疾病诊断中的应用价值。方法:收集确诊的系统性红斑狼疮(127例)、类风湿性关节炎(103例)和重症肌无力患者(34例)的血清标本,以同时期体检的正常成人(149例)为对照,采用ADA偶联嘌呤核苷磷酸化酶(PNP)和黄嘌呤氧化酶(XOD)法检测血清中ADA活性。结果:系统性红斑狼疮、类风湿性关节炎、重症肌无力患者和正常体检者血清中的ADA活性均值分别为(12.91±5.82)U/L、(10.91±3.70)U/L、(9.21±3.57)U/L、(8.73±2.79)U/L。系统性红斑狼疮、类风湿性关节炎患者血清中ADA活性均显著高于正常体检者(P0.05),而重症肌无力患者血清中ADA活性和正常体检者相比差别无统计学意义(P0.05)。ROC结果显示将血清ADA活性10U/L同时作为RA和SLE诊断的阳性值,ADA活性诊断SLE的AUC为0.748,敏感性为59.8%,特异性为83.2%。ADA活性诊断RA的敏感性为42.7%,特异性为83.2%。血清ADA活性为10 U/L作为诊断的参考值上限,其诊断SLE的效果优于ESR和hs-CRP,其诊断RA的效果低于ESR和hs-CRP。结论:系统性红斑狼疮、类风湿性关节炎患者血清ADA活性均有升高,在系统性红斑狼疮患者中升高更为明显,可作为系统性红斑狼疮潜在的辅助诊断标志物。     

A structural investigation of FISLE-412, a peptidomimetic compound derived from saquinavir that targets lupus autoantibodies

FISLE-412 is the first reported small molecule peptidomimetic that neutralizes anti-dsDNA autoantibodies associated with systemic lupus erythematosus (SLE) pathogenesis. FISLE-412 is a complex small molecule that involves a challenging synthesis scheme, but has attractive pharmacological activities as a potential small molecule therapeutic in lupus. Therefore, we initiated a Structure–Activity Relationship study to simplify the complexity of FISLE-412. We synthesized a small library of mimetopes around the FISLE-412 structure and identified several analogues which could neutralize anti-DNA lupus antibodies in vitro and ex vivo. Our strategies reduced the structural complexity of FISLE-412 and provide important information that may guide development of potential autoantibody-targeted lupus therapeutics.     

Emerging role of immune cell network in autoimmune skin disorders: An update on pemphigus,vitiligo and psoriasis

Autoimmune skin diseases are a group of disorders that arise due to a deregulated immune system resulting in skin tissue destruction. In the majority of these conditions, either autoreactive immune cells or the autoantibodies are generated against self-antigens of the skin. Although the etiology of these diseases remains elusive, biochemical, genetic, and environmental factors such as infectious agents, toxins damage the skin tissue leading to self-antigen generation, autoantibody attack and finally results in autoimmunity of skin. Immune dysregulation, which involves predominantly T helper 1/17 (Th1/Th17) polarization and the inability of regulatory T cells to regress immune response, is implicated in autoimmune skin diseases.The emerging roles of immune cells, cytokines, and chemokines in the pathogenesis of common autoimmune skin diseases like pemphigus, vitiligo, and psoriasis are discussed in this review. The main focus is on the interplay between immune cell network including the innate and adaptive immune system, regulatory cells, immune checkpoints and recently identified tissue-resident memory cells (TRMs) in disease pathogenesis and relapse. We also attempt to highlight on the immune mechanisms common to these diseases which can be targeted for designing novel therapeutics.     

Identification of a Point Mutation Impairing the Binding between Aquaporin-4 and Neuromyelitis Optica Autoantibodies

Neuromyelitis optica (NMO) is characterized by the presence of pathogenic autoantibodies (NMO-IgGs) against supra-molecular assemblies of aquaporin-4 (AQP4), known as orthogonal array of particles (OAPs). NMO-IgGs have a polyclonal origin and recognize different conformational epitopes involving extracellular AQP4 loops A, C, and E. Here we hypothesize a pivotal role for AQP4 transmembrane regions (TMs) in epitope assembly. On the basis of multialignment analysis, mutagenesis, NMO-IgG binding, and cytotoxicity assay, we have disclosed the key role of aspartate 69 (Asp⁶⁹) of TM2 for NMO-IgG epitope assembly. Mutation of Asp⁶⁹ to histidine severely impairs NMO-IgG binding for 85.7% of the NMO patient sera analyzed here. Although Blue Native-PAGE, total internal reflection fluorescence microscopy, and water transport assays indicate that the OAP Asp⁶⁹ mutant is similar in structure and function to the wild type, molecular dynamic simulations have revealed that the D⁶⁹H mutation has the effect of altering the structural rearrangements of extracellular loop A. In conclusion, Asp⁶⁹ is crucial for the spatial control of loop A, the particular molecular conformation of which enables the assembly of NMO-IgG epitopes. These findings provide additional clues for new strategies for NMO treatment and a wealth of information to better approach NMO pathogenesis.     

Hyperplastic neuroretinopathy and disorder of pigment epithelial cells precede accelerated retinal degeneration in the SJL/N mouse

We have found a complex eye disease in the SJL/N mouse. This animal is closely related to the SJL/J mouse, which is homozygous for retinal degeneration (rd) and which also suffers from extraocular reticulum cell sarcomas at around 200 days of age. In the SJL/N animal, a high incidence of subretinal tumor is present at 9 days after birth. Furthermore, we have observed an extensive neuroretinal hyperplasia, a phenomenon that is termed hyperplastic neuroretinopathy, and that is probably the consequence of elevated levels of cytokines in the animals. In addition to these anomalies, the SJL/N mouse shows progressive dystrophy of the retinal pigment epithelium (RPE) from day 4 onwards, and accelerated photoreceptor cell degeneration is completed by day 16. The early RPE dystrophy appears to be a secondary autoimmune disease, since cells in this structure and in the choroid develop MHC class II antigens, whereas we suspect that the accelerated photoreceptor cell loss is induced by a soluble toxic agent. The F₁ progeny derived from cross-breeding the SJL/N and Balb/c +/+ strains also shows a high incidence of subretinal tumor and hyperplastic neuroretinopathy, but neither the RPE dystrophy nor retinal degeneration.     

Increases in cyclic AMP levels couple to H1 receptors in atria from autoimmune myocarditis mice

We have previously shown that myocardium from experimental autoimmune myocarditis expresses H1 receptors not present in normal mice heart. ThEA acting via H1 receptors, augments cyclic AMP production in atria from autoimmune myocarditis mice without any effect on atria from control mice. Addition of mepyramine before ThEA caused cyclic AMP levels to fall to a level similar to basal, confirming the H1 receptor participation. Histamine at low concentrations mimicked the ThEA action on H1 receptor-stimulation of cyclic AMP production by autoimmune myocardium. The fact that the inhibition of phospholipase C blocked the cyclic AMP stimulation by ThEA, supports the assumption that this action is secondary to receptor-mediated hydrolysis of phosphoinositides, generating some oxidative metabolites (IP3-DAG), which in turn may be responsible for the cyclic AMP effect. So, the inhibition of protein kinase C and calcium/calmodulin partially prevented the stimulatory action of ThEA on cyclic AMP levels in autoimmune myocardium, suggesting that both pathways are implicated in this effect. Data shows that the stimulation of H1 receptors by specific agonist in atria from autoimmune myocarditis mice, augments the cyclic AMP, requiring the hydrolysis of phosphoinositide cycle. The role of this cyclic AMP augmentation in myocardium from autoimmune myocarditis mice, will provide a basis to assess the role of this second messenger as an important factor in the regulation and/or modulation of the physiological behaviour of the heart in the course of autoimmune myocarditis.     

Connective tissue responses in blacks in relation to disease: further observations

Additional information is presented in support of the hypothesis (Polednak: Am. J. Phys. Anthropol. 41:49-58, 1974) that in some black populations certain connective-tissue responses, which are involved in protection against infection and repair after injury, also may predispose to specific chronic diseases. These diseases include some autoimmune disorders (i.e., systemic lupus erythematosus, sarcoidosis, and scleroderma) and various benign and malignant tumors involving connective-tissue cells. Complex interactions between genetic factors (HLA and non-HLA loci) and environmental agents may be involved both in the etiology of these autoimmune diseases and in population differences in the incidence of these diseases. A framework is reviewed whereby cellular responses to infectious agents, involving chiefly immunoglobulin-producing cells and macrophages, may have consequences in terms of pathogenesis of specific chronic diseases more common in some black populations. The possible role of natural selection in maintaining some of these diseases is also considered, along with the need for involvement of biomedical anthropologists in their investigation.     

Strong Changes in Lipoproteins and Autoantibodies of Blood Serum of the Tundra Nency Population as a Result of Environmental Radiation on the Territory they Inhabit

As a result of large‐scale nuclear tests on the Novaya Zemlya test site (1955–62) the Tundra Nentsy population of Yamal‐Nentsy autonomous region (YNAR) fell under the constant influence of incorporated radioactive isotopes (¹³⁷Cs and ⁹⁰Sr). Therefore, it is very important to analyze a possible spectrum of diseases of Tundra Nentsy population.     

Analysis of the Gadolinium retention in the Experimental Autoimmune Encephalomyelitis (EAE) murine model of Multiple Sclerosis

ObjectivesThe aim of this study is to quantitatively investigate, at the preclinical level, the extent of Gd retention in the CNS, and peripheral organs, of immune-mediated murine models (Experimental Autoimmune Encephalomyelitis –EAE) of Multiple Sclerosis, compared to control animals, upon the injection of gadodiamide. The influence of the Gadolinium Based Contrast Agent administration timing during the course of EAE development is also monitored.MethodsEAE mice were injected with three doses (1.2 mmol/kg each) of gadodiamide at three different time points during the EAE development and sacrificed after 21 or 39 days. Organs were collected and the amount of Gd was quantified through Inductively Coupled Plasma-Mass Spectrometry. Transmission electron microscopy (TEM) and MRI techniques were applied to add spatial and qualitative information to the obtained results.ResultsIn the spinal cord of EAE group, 21 days after gadodiamide administration, a significantly higher accumulation of Gd occurred. Conversely, in the encephalon, a lower amount of Gd retention was reached, even if differences emerged between EAE and controls mice. After 39 days, the amounts of retained Gd markedly decreased. TEM validated the presence of Gd in CNS. MRI of the encephalon at 7.1T did not highlight any hyper intense region.ConclusionIn the spinal cord of EAE mice, which is the mostly damaged region in this specific animal model, a preferential but transient accumulation of Gd is observed. In the encephalon, the Gd retention could be mostly related to inflammation occurring upon immunization rather than to demyelination.