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Frailty in Rheumatic Diseases.
Motta, F, Sica, A, Selmi, C
Frontiers in immunology. 2020;:576134
Abstract
Frailty is a syndrome characterized by the decline in the physiologic reserve and function of several systems, leading to increased vulnerability and adverse health outcomes. While common in the elderly, recent studies have underlined the higher prevalence of frailty in chronic diseases, independent of age. The pathophysiological mechanisms that contribute to frailty have not been completely understood, although significant progresses have recently been made. In this context, chronic inflammation is likely to play a pivotal role, both directly and indirectly through other systems, such as the musculoskeletal, endocrine, and neurological systems. Rheumatic diseases are characterized by chronic inflammation and accumulation of deficits during time. Therefore, studies have recently started to explore the link between frailty and rheumatic diseases, and in this review, we report what has been described so far. Frailty is dynamic and potentially reversible with 8.3%-17.9% of older adults spontaneously improving their frailty status over time. Muscle strength is likely the most significant influencing factor which could be improved with training thus pointing at the need to maintain physical activity. Not surprisingly, frailty is more prevalent in patients affected by rheumatic diseases than in healthy controls, regardless of age and is associated with high disease activity to affect the clinical outcomes, largely due to chronic inflammation. More importantly, the treatment of the underlying condition may prevent frailty. Scales to assess frailty in patients affected by rheumatic diseases have been proposed, but larger casuistries are needed to validate disease-specific indexes, which could allow more accurate prognostic estimates than demographic and disease-related variables alone. Frail patients can be more vulnerable and more difficult to treat, due to the risk of side effects, therefore frailty should be taken into account in clinical decisions. Clinical trials addressing frailty could identify patients who are less likely to tolerate potentially toxic medications and might benefit from more conservative regimens. In conclusion, the implementation of the concept of frailty in rheumatology will allow a better understanding of the patient global health, a finest risk stratification and a more individualized management strategy.
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2.
The microbiome and autoimmunity: a paradigm from the gut-liver axis.
Li, B, Selmi, C, Tang, R, Gershwin, ME, Ma, X
Cellular & molecular immunology. 2018;15(6):595-609
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The incidence of autoimmune and inflammatory diseases has been increasing worldwide. Changes in environmental factors, such as modern lifestyle, diet, antibiotics and hygiene are thought to play a critical role in the development of various autoimmune diseases. It is the mucosal microbial flora that is shaped by our environment and communicates with the innate and adaptive immune systems, and when disrupted, can lead to the loss of immune tolerance and dysregulated immune cells. This review paper provides an overview of the interactions between the intestinal microbiome and the immune system. It explains how these interactions affect host autoimmunity locally and systemically and sheds light on the molecular mechanisms, utilised by microbes that may contribute to systemic autoimmunity in genetically susceptible individuals. The links between the gut microbiome and various autoimmune diseases, such as rheumatoid arthritis, type 1 diabetes and multiple sclerosis, as well as the gut-liver axis, involving intestinal microbiome and autoimmune liver diseases, are discussed in more detail.
Abstract
Microbial cells significantly outnumber human cells in the body, and the microbial flora at mucosal sites are shaped by environmental factors and, less intuitively, act on host immune responses, as demonstrated by experimental data in germ-free and gnotobiotic studies. Our understanding of this link stems from the established connection between infectious bacteria and immune tolerance breakdown, as observed in rheumatic fever triggered by Streptococci via molecular mimicry, epitope spread and bystander effects. The availability of high-throughput techniques has significantly advanced our capacity to sequence the microbiome and demonstrated variable degrees of dysbiosis in numerous autoimmune diseases, including rheumatoid arthritis, type 1 diabetes, multiple sclerosis and autoimmune liver disease. It remains unknown whether the observed differences are related to the disease pathogenesis or follow the therapeutic and inflammatory changes and are thus mere epiphenomena. In fact, there are only limited data on the molecular mechanisms linking the microbiota to autoimmunity, and microbial therapeutics is being investigated to prevent or halt autoimmune diseases. As a putative mechanism, it is of particular interest that the apoptosis of intestinal epithelial cells in response to microbial stimuli enables the presentation of self-antigens, giving rise to the differentiation of autoreactive Th17 cells and other T helper cells. This comprehensive review will illustrate the data demonstrating the crosstalk between intestinal microbiome and host innate and adaptive immunity, with an emphasis on how dysbiosis may influence systemic autoimmunity. In particular, a gut-liver axis involving the intestinal microbiome and hepatic autoimmunity is elucidated as a paradigm, considering its anatomic and physiological connections.
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Role of Lipoylation of the Immunodominant Epitope of Pyruvate Dehydrogenase Complex: Toward a Peptide-Based Diagnostic Assay for Primary Biliary Cirrhosis.
Pacini, G, Carotenuto, A, Rentier, C, Nuti, F, Real-Fernandez, F, Brancaccio, D, Sabatino, G, Larregola, M, Peroni, E, Migliorini, P, et al
Journal of medicinal chemistry. 2015;(16):6619-29
Abstract
Primary biliary cirrhosis is an immune-mediated chronic liver disease whose diagnosis relies on the detection of serum antimitochondrial antibodies directed against a complex set of proteins, among which pyruvate dehydrogenase complex is considered the main autoantigen. We studied the immunological role of the lipoyl domain of this protein using synthetic lipoylated peptides, showing that the lipoyl chain chirality does not affect autoantibody recognition and, most importantly, confirming that both lipoylated and unlipoylated peptides are able to recognize specific autoantibodies in patients sera. In fact, 74% of patients sera recognize at least one of the tested peptides but very few positive sera recognized exclusively the lipoylated peptide, suggesting that the lipoamide moiety plays a marginal role within the autoreactive epitope. These results are supported by a conformational analysis showing that the lipoyl moiety of pyruvate dehydrogenase complex appears to be involved in hydrophobic interactions, which may limit its exposition and thus its contribution to the complex antigenic epitope. A preliminary analysis of the specificity of the two most active peptides indicates that they could be part of a panel of synthetic antigens collectively able to mimic in a simple immunoenzymatic assay the complex positivity pattern detected in immunofluorescence.
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4.
Heritability versus the role of the environment in autoimmunity.
Selmi, C, Lu, Q, Humble, MC
Journal of autoimmunity. 2012;(4):249-52
Abstract
The higher concordant occurrence of autoimmune diseases in monozygotic twins compared to dizygotic or sibling pairs supports the role for genetic susceptibility. For most conditions, however, concordance rates are considerably below 100% and lead to the estimate of the weight of genetics coined "heritability". In the group of autoimmune diseases heritability ranges between 0.008 and 1 with median values of approximately 0.60. A complementary term coined "environmentability" represents the environmental influence on individual phenotype, and can include dietary habits, chemicals, or hygienic conditions. Genome-wide association data in complex diseases confirmed a role for the environment in disease etiology as significantly associated polymorphisms were found only in subgroups of patients and controls. Environmental links to autoimmunity range from anecdotal associations or case series to largely investigated experimental and epidemiological studies. A bibliographic analysis reveals that the number of publications dedicated to environmental factors in autoimmunity has grown on average by 7% every year since 1997. The National Institute of Environmental Health Sciences (NIEHS) convened an expert panel workshop to review the body of literature examining the role of the environment in the development of autoimmune disease and to identify conclusions, confidences, and critical knowledge gaps in this area. The results of the workshop discussion are summarized in the articles found in this issue of the Journal of Autoimmunity.
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5.
Juvenile idiopathic arthritis.
Borchers, AT, Selmi, C, Cheema, G, Keen, CL, Shoenfeld, Y, Gershwin, ME
Autoimmunity reviews. 2006;(4):279-98
Abstract
One of the most enigmatic problems in rheumatology has been juvenile idiopathic arthritis (JIA). Firstly, the classification has often depended on clinical features that have variations between patients. Secondly, there are different classification schemes in usage and there are few objective serologic tests that help to resolve the differences between the criteria sets. Thirdly, only recently have significant advances been made in understanding the immunology and immunopathology of JIA and, in particular, new treatment options. In this review, we will define the historical basis of JIA and emphasize not only the clinical features, but also the immunological characteristics, the pathogenesis, and treatment options. We will also discuss, in particular, quality of life, psychosocial functioning, socioeconomic outcomes and the difficult area of mortality. Finally, this review will attempt to bridge genetic observations with clinical presentation. JIA represents a relatively common syndrome of pediatric onset rheumatologic disease and a better understanding of the clinical definition, the relationship to autoimmunity, and novel treatments with biologic agents are critical for improved patient care.
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From bases to basis: linking genetics to causation in primary biliary cirrhosis.
Invernizzi, P, Selmi, C, Mackay, IR, Podda, M, Gershwin, ME
Clinical gastroenterology and hepatology : the official clinical practice journal of the American Gastroenterological Association. 2005;(5):401-10
Abstract
Primary biliary cirrhosis (PBC) is a multifactorial autoimmune disease with inherited and environmental components in pathogenesis. It is exceptional among autoimmune diseases in showing strong heritability according to familial occurrence and monozygotic twins concordance, yet with weak associations with the usual genetic risk elements for autoimmunity, such as the HLA alleles. Among the latter, there is risk (at least in some populations) conferred by HLA DRB1*08 and possibly some protection by DRB1*11. However, the inconsistency among studies on HLA is surprising, given that PBC is a relatively homogenous disease entity. Among non-HLA genes, some studies implicate polymorphisms of genes for cytotoxic T-lymphocyte antigen-4, interleukin-2, or interleukin-10; polymorphisms of the vitamin D receptor could synergize with low sunlight exposure to create deficiency of the immunoregulatory factor, activated vitamin D. A new lead is available from the finding in female subjects with PBC of an increase in the degree of monosomy of the X chromosome that is presumed to carry immune response genes. A further suggested source of inquiry is the apparent protection of African-American women from PBC. Finally, data on inheritance should be sought in PBC by descent methodology, rather than by cross-sectional association studies in cases and control subjects, and based on analysis of a large number of families with an affected member through a worldwide effort.