Anna Ruckdeschel scite author profile

Summary CLEC16A variation has been associated with multiple immune-mediated diseases, including type 1 diabetes, multiple sclerosis, systemic lupus erythematosus, celiac disease, Crohn's disease, Addison's disease, primary biliary cirrhosis, rheumatoid arthritis, juvenile idiopathic arthritis and alopecia areata. Despite strong genetic evidence implicating CLEC16A in autoimmunity, this gene's broad association with disease remains unexplained. We generated Clec16a knock-down (KD) mice in the nonobese diabetic (NOD) model for type 1 diabetes and found that Clec16a silencing protected against autoimmunity. Disease protection was attributable to T cell hyporeactivity which was secondary to changes in thymic epithelial cell (TEC) stimuli that drive thymocyte selection. Our data indicate that T cell selection and reactivity were impacted by Clec16a variation in thymic epithelium owing to Clec16a's role in TEC autophagy. These findings provide a functional link between human CLEC16A variation and the immune dysregulation that underlies the risk of autoimmunity.

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JAM-A as a prognostic factor and new therapeutic target in multiple myeloma

Solimando

Brandl

Martini

et al. 2017

Leukemia

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Cell adhesion in the multiple myeloma (MM) microenvironment has been recognized as a major mechanism of MM cell survival and the development of drug resistance. Here we addressed the hypothesis that the protein junctional adhesion molecule-A (JAM-A) may represent a novel target and a clinical biomarker in MM. We evaluated JAM-A expression in MM cell lines and in 147 MM patient bone marrow aspirates and biopsies at different disease stages. Elevated JAM-A levels in patient-derived plasma cells were correlated with poor prognosis. Moreover, circulating soluble JAM-A (sJAM-A) levels were significantly increased in MM patients as compared with controls. Notably, in vitro JAM-A inhibition impaired MM migration, colony formation, chemotaxis, proliferation and viability. In vivo treatment with an anti-JAM-A monoclonal antibody (αJAM-A moAb) impaired tumor progression in a murine xenograft MM model. These results demonstrate that therapeutic targeting of JAM-A has the potential to prevent MM progression, and lead us to propose JAM-A as a biomarker in MM, and sJAM-A as a serum-based marker for clinical stratification.

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Single- and double-hit events in genes encoding immune targets before and after T cell–engaging antibody therapy in MM

Truger

Duell²,

Zhou³

et al. 2021

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T-cell engaging immunotherapies exert unprecedented single-agent activity in Multiple Myeloma (MM), thereby putting a yet unexplored selective pressure on the clonal architecture. In this study, we report on homozygous BCMA (TNFRSF17) gene deletion after BCMA targeting T-cell redirecting bispecific antibody therapy in a heavily pretreated MM patient. Loss of BCMA protein expression persisted over subsequent relapses, with no response to anti-BCMA antibody drug conjugate (ADC) treatment. In light of the multiple alternative targets that currently emerge in addition to BCMA, we extended our analyses to delineate a more complete picture of genetic alterations that may impact immuno-therapy targets in MM. We performed WGS and RNAseq in 100 MM patients (50 NDMM and 50 RRMM) and identified a significant proportion of patients with aberrations in genes encoding for immunotherapy targets, and GPRC5D ranked first with 15% heterozygous deletions, followed by CD38 (10%), SDC1 (5%) and TNFRSF17 (4%). Notably, these heterozygous deletions did not lower the expression levels of respective genes, but may represent a 'first hit' that drives the acquisition of homozygous deletions and, subsequent antigen-loss relapse upon targeted immunotherapy. In summary, we show pre-existing vulnerability in genes encoding for immuno-targets prior to and homozygous deletions after T-cell engaging immunotherapy.

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Cereblon enhancer methylation and IMiD resistance in multiple myeloma

Haertle

Barrio

Munawar

et al. 2021

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Cereblon is the direct binding target of the immunomodulatory drugs that are commonly used to treat Multiple Myeloma, the second most frequent hematologic malignancy. Patients respond well to initial IMiD treatment but virtually all develop drug resistance over time with the underlying mechanisms poorly understood. We identified a yet undescribed DNA hypermethylation in an active intronic CRBN enhancer. Differential hypermethylation in this region was found increased in healthy plasma cells, but more pronounced in IMiD refractory MM. Methylation significantly correlated with decreased CRBN expression levels. DNTMi in vitro experiments induced CRBN enhancer demethylation and sensitizing effects on Lenalidomide treatment were observed in two MM cell lines. Thus, we provide first evidence that aberrant CRBN DNA methylation is a novel mechanism of IMiD resistance in Multiple Myeloma and may predict IMiD response prior treatment.

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