Features of Goodpasture's Syndrome
|✅ Paper Type: Free Essay||✅ Subject: Biology|
|✅ Wordcount: 2207 words||✅ Published: 8th Jun 2018|
Goodpasture’s syndrome, a rare autoimmune disease is characterized by anti-GBM (anti-glomerular basement membrane) antibodies attacking glomerular and alveolar basement membranes of the kidneys and lungs respectively. It was first reported by Dr. Ernest William Goodpasture in 1919 and first used by Stanton and Tange in 1957 in their case studies involving nine patients with the pulmonary-renal syndrome. [1, 2]
The onset of this disease ranges from the ages of 20-30 and 60-70 especially in young men in their late twenties or in men and women over sixty years of age study. 
The diagnostic techniques involved in detection of Goodpasture’s syndrome include i) urine analysis that detects kidney damage by presence of high number of red blood cells or protein in the urine sample ii) blood tests showing the presence of anti-GBM antibodies iii) x-rays that can show anomalies in lung anatomy or iv) biopsies that involve imaging of a kidney tissue sample to demonstrate glomeruli characterised by crescent-shaped structures and lines of antibodies attached to the GBM. 
While Goodpasture’s syndrome constitutes the representation of clinical features like rapidly progressive glomerulonephritis (RPGN) and pulmonary hemorrhage from any cause, Goodpasture disease also includes the presence of anti-GBM antibodies in addition to the other characteristics. The term anti-GBM disease constitutes a patient with the typical autoantibodies, irrespective of clinical symptoms and characteristic features. [1,5]
The clinical manifestations associated with Goodpasture’s syndrome include acute renal failure resulting from rapidly progressive glomerulonephritis along with pulmonary hemorrhage that might prove fatal. The symptoms in relation to it consist of bleeding of lungs, kidney failure, hematuria, proteinuria, general malaise, fatigue, and weight loss. [1,6,7,8,9]
The exact etiology of this syndrome is not known however there seem to be genetic and environmental risk factors. The factors being i) exposure to organic solvents or hydrocarbons ii) smoking and drugs iii) infection iv) exposure to metal particulate matter v) lymphocyte-depletion therapy. [1,5,10]
The characteristic pathology in individuals experiencing the Goodpasture’s Syndrome can be detected by immunofluorescence staining technique of the IgG on the GBM that shows smooth diffuse linear patterns. 
Hemodialysis, plasma exchange, cyclophosphamide drugs and immunosuppressive agents like methylprednisolone pulse therapy or oral administration of prednisolone are possible treatments for Goodpasture’s syndrome. [12,13,14]
Basic Cellular and Molecular Mechanisms
The localization of immunoglobulin IgG deposits at sites of inflammation within the pulmonary and renal basement membranes shows Goodpasture’s syndrome (a form of the anti-GBM disease) to be an antibody-mediated autoimmune disease. The pathogenic role of these antibodies has been confirmed by transplantation of circulating or kidney-eluted anti-GBM antibodies to Rhesus monkey or human kidney allografts that result in the development of the disease. A type II hypersensitivity reaction occurs when antibodies are targeted against extracellular matrix (ECM) – specific antigens. 
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The hypersensitivity response affects all organs in the body of which collagen is a constituent but the alveolar and glomerular basement membranes are more prone to the effect. This discrepancy is a result of increased accessibility of epitopes (antigen molecules facilitating attachment to a matching antibody) linked to overexpression of Î±3 collagen chains in the respective basement membranes allowing access and formation of antibodies. 
While Î±3NC1 antibodies are the most common in patients with Goodpasture’s syndrome, Î±5NC1 antibodies are less prevalent. Sometimes antineutrophil cytoplasmic antibody [ANCA] can also be present. [5,17]
The disorder develops antibodies that target Î±3 chain of basement membrane collagen (type IV collagen) present in alveoli in lungs and in the glomeruli that form the filtering units of the kidneys within the nephrons. These structures contain the basement membrane with collagen as its essential component that differentiates the epithelia from the underlying tissue. The conformational epitopes of the Goodpasture antigen are localized within 2 regions in the carboxyl terminal, noncollagenous (NC1) domain of a type IV collagen chain, Î±3(IV)NC1. [1, 5, 18]. Upon interaction of the anti-GBM antibodies with the conformational epitope of the GBM glycoproteins, the complement pathway of the immune system gets activated. This results in infiltration by polymorphonuclear leukocytes (PMNs) and monocytes. The severely damaged GBM induces reflux of fibrinogen into the Bowman space, fibrinogen polymerizes to fibrin through the proliferation of procoagulant factors from activated monocytes, leading to a crescent formation.
Goodpasture’s syndrome is linked with specific HLA types. Both positive (HLA-DR15) and negative (HLA-DR7) associations are defined and being used to develop an understanding of antigen presentation, tolerance and autoimmunity. [20,21,22]
Recent developments like the plasmapheresis technique, steroidal drugs, and immunosuppressive therapy have drastically ameliorated the course of the medical condition in comparison to yesteryears, in which Goodpasture syndrome was deemed fatal. 
Zhao et al., demonstrate the significant role of Î±5NC1-specific antibodies in pathogenesis of Goodpasture’s disease and also re-confirm Î±345 collagen IV molecule as the original GP autoantigen. 
The invention of a drug, now patented, with its active element containing boron that constitutes inhibitors of arginase activity has claimed remedial effects in the pathological state of Goodpasture’s Syndrome. 
A recently developed, patented prophylaxis for glomerulonephritis resulting from Goodpasture’s syndrome comprises of administration of a therapeutically effective amount of an IL-6 antibody that binds with or regulates the expression or activity of a mammalian IL-6 polypeptide. 
Goodpasture’s Syndrome is an autoimmune disease characterized by anti-GBM antibodies attacking glomerular and alveolar basement membranes. The innate immune response comprises of (i) cell death; (ii) polymorphonuclear cell releasing neutrophils, basophils, eosinophils, antigens and monocytes to infiltrate the glomerulus. The adaptive immune response triggers the classical pathway of complement activated by antigen-antibody complex formation, and type II hypersensitivity reaction. Here antigens are targeted against cell- specific and tissue specific antigens (chiefly the connective tissue).
Currently, there is a lot of research focusing on deciphering the causative agents of the harmful antibodies that lead to the development of Goodpasture’s syndrome. Evidence from this research can lead to novel drug discovery, eventually leading to a potential definitive cure for Goodpasture’s syndrome. 
The exact the genetic determinants that constitute the etiology of Goodpasture’s syndrome are yet to be found.
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