Karen Molyneux scite author profile

Over the past two decades significant progress has been made in unravelling the complex pathogenesis of immunoglobulin A nephropathy (IgAN). Excess amounts of poorly galactosylated immunoglobulin (Ig)A1 in the serum appear to be the trigger for generation of glycan-specific IgG and IgA autoantibodies, resulting in the formation of circulating IgA immune complexes, which are pivotal to the development of nephritis. It remains unclear why there is an increase in poorly galactosylated IgA1 molecules in the serum in IgAN. One intriguing possibility is that this IgA is derived from displaced mucosal B cells, which have mis-homed from their mucosal induction sites to systemic sites, where they secrete polymeric, poorly galactosylated IgA directly into the circulation rather than onto mucosal surfaces. Lack of a clear appreciation of the origins of poorly galactosylated IgA1 and an incomplete understanding of immune complex formation have hampered development of specific therapeutic strategies to prevent mesangial IgA deposition. Clinicians have therefore been left to manage patients with generic therapies, mainly by control of blood pressure and renin-angiotensin blockade. A paucity of high-quality clinical trials has meant that evaluation of additional therapies, particularly immunosuppressive regimens, has been difficult and there remains a great deal of confusion over the optimum treatment of patients at high risk of progressive chronic kidney disease.

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Galactosylation of IgA1 Is Associated with Common Variation in C1GALT1

Gale

Molyneux

Wimbury

et al. 2017

JASN

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IgA nephropathy (IgAN), an important cause of kidney failure, is characterized by glomerular IgA deposition and is associated with changes in O-glycosylation of the IgA1 molecule. Here, we sought to identify genetic factors contributing to levels of galactose-deficient IgA1 (Gd-IgA1) in Caucasian and Chinese populations.Gd-IgA1 levels were elevated in IgAN patients compared with ethnically matched healthy subjects and correlated with evidence of disease progression. Caucasian IgAN patients exhibited significantly higher Gd-IgA1 levels than Chinese patients. Among individuals without IgAN, Gd-IgA1 levels were not correlated with kidney function. Gd-IgA1 level heritability (h ). This association was replicated in GWAS of separate cohorts comprising: 308 UK patients with membranous glomerulonephritis (p<10

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O-Glycosylation of Serum IgA1 Antibodies against Mucosal and Systemic Antigens in IgA Nephropathy

et al. 2006

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Spleen Tyrosine Kinase Is Important in the Production of Proinflammatory Cytokines and Cell Proliferation in Human Mesangial Cells following Stimulation with IgA1 Isolated from IgA Nephropathy Patients

Kim

McDaid

McAdoo

et al. 2012

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IgA immune complexes are capable of inducing human mesangial cell (HMC) activation, resulting in release of proinflammatory and profibrogenic mediators. The subsequent inflammation, cellular proliferation, and synthesis of extracellular matrix lead to the progression of IgA nephropathy (IgAN). Spleen tyrosine kinase (SYK) is an intracellular protein tyrosine kinase involved in cell signaling downstream of immunoreceptors. In this study, we determined whether SYK is involved in the downstream signaling of IgA1 stimulation in HMC, leading to production of proinflammatory cytokines/chemokines and cell proliferation. Incubation of HMC with IgA1 purified from IgAN patients significantly increased the synthesis of MCP-1 in a dose-dependent manner. There was also significantly increased production of IL-6, IL-8, IFN-γ–inducible protein-10, RANTES, and platelet-derived growth factor-BB. Stimulation of HMC with heat-aggregated IgA1 purified from IgAN patients induced significantly increased HMC proliferation. Both pharmacological inhibition of SYK and knockdown of SYK by small interfering RNA significantly reduced the synthesis of these mediators and inhibited HMC proliferation. Moreover, positive immunostaining for total and phospho-SYK in glomeruli of kidney biopsies from IgAN patients strongly suggests the involvement of SYK in the pathogenesis of IgAN. To our knowledge, we demonstrate, for the first time, the involvement of SYK in the downstream signaling of IgA1 stimulation in HMC and in the pathogenesis of IgAN. Hence, SYK represents a potential therapeutic target for IgAN.

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O-Glycosylation of Serum IgD in IgA Nephropathy

Smith¹,

Wolff²,

Molyneux³

et al. 2006

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Immunopathogenesis of IgAN

et al. 2007

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The defining hallmark of IgA nephropathy (IgAN) is deposition of polymeric IgA1 in the glomerular mesangium accompanied by a mesangial proliferative glomerulonephritis. The mechanisms involved in mesangial polymeric IgA1 deposition and the initiation of inflammatory glomerular injury remain unclear. This lack of a complete understanding of the pathogenesis of IgAN has meant that there is still no treatment known to modify mesangial deposition of IgA. Increasing evidence, however, supports the importance of IgA-containing immune complex formation as a pivotal factor driving mesangial IgA deposition and triggering of glomerular injury. A number of potentially important changes to the IgA1 molecule have been identified in IgAN, which may contribute to immune complex formation. These changes suggest that the polymeric IgA1 that deposits in IgA nephropathy is derived from mucosally primed plasma cells. The presence of this IgA in the circulation reflects displacement of mucosal B lineage cells to systemic sites and may be the result of mishoming of lymphocytes trafficking along the mucosa-bone marrow axis.

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β1,4-galactosyltransferase 1 is a novel receptor for IgA in human mesangial cells

Molyneux

Wimbury

Pawluczyk

et al. 2017

Kidney International

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IgA nephropathy is characterized by mesangial deposition of IgA, mesangial cell proliferation, and extracellular matrix production. Mesangial cells bind IgA, but the identity of all potential receptors involved remains incomplete. The transferrin receptor (CD71) acts as a mesangial cell IgA receptor and its expression is upregulated in many forms of glomerulonephritis, including IgA nephropathy. CD71 is not expressed in healthy glomeruli and blocking CD71 does not completely abrogate mesangial cell IgA binding. Previously we showed that mesangial cells express a receptor that binds the Fc portion of IgA and now report that this receptor is an isoform of β-1,4-galactosyltransferase. A human mesangial cell cDNA library was screened for IgA binding proteins and β-1,4-galactosyltransferase identified. Cell surface expression of the long isoform of β-1,4-galactosyltransferase was shown by flow cytometry and confocal microscopy and confirmed by immunoblotting. Glomerular β-1,4-galactosyltransferase expression was increased in IgA nephropathy. IgA binding and IgA-induced mesangial cell phosphorylation of spleen tyrosine kinase and IL-6 synthesis were inhibited by a panel of β-1,4-galactosyltransferase-specific antibodies, suggesting IgA binds to the catalytic domain of β-1,4-galactosyltransferase. Thus, β-1,4-galactosyltransferase is a constitutively expressed mesangial cell IgA receptor with an important role in both mesangial IgA clearance and the initial response to IgA deposition.

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Differential expression of microRNA miR-150-5p in IgA nephropathy as a potential mediator and marker of disease progression

Pawluczyk

Didangelos

Barbour

et al. 2021

Kidney International

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Karen Molyneux

An update on the pathogenesis and treatment of IgA nephropathy

Galactosylation of IgA1 Is Associated with Common Variation in C1GALT1

O-Glycosylation of Serum IgA1 Antibodies against Mucosal and Systemic Antigens in IgA Nephropathy

Spleen Tyrosine Kinase Is Important in the Production of Proinflammatory Cytokines and Cell Proliferation in Human Mesangial Cells following Stimulation with IgA1 Isolated from IgA Nephropathy Patients

O-Glycosylation of Serum IgD in IgA Nephropathy

Immunopathogenesis of IgAN

β1,4-galactosyltransferase 1 is a novel receptor for IgA in human mesangial cells

Differential expression of microRNA miR-150-5p in IgA nephropathy as a potential mediator and marker of disease progression

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