Abstract
Gain-of-function mutations of the TLR adaptor and oncoprotein MyD88 drive B cell lymphomagenesis via sustained NF-κB activation. In myeloid cells, both short and sustained TLR activation and NF-κB activation lead to the induction of inhibitory MYD88 splice variants that restrain prolonged NF-κB activation. We therefore sought to investigate whether such a negative feedback loop exists in B cells. Analyzing MYD88 splice variants in normal B cells and different primary B cell malignancies, we observed that MYD88 splice variants in transformed B cells are dominated by the canonical, strongly NF-κB-activating isoform of MYD88 and contain at least three novel, so far uncharacterized signaling-competent splice isoforms. Sustained TLR stimulation in B cells unexpectedly reinforces splicing of NF-κB-promoting, canonical isoforms rather than the ‘MyD88s’, a negative regulatory isoform reported to be typically induced by TLRs in myeloid cells. This suggests that an essential negative feedback loop restricting TLR signaling in myeloid cells at the level of alternative splicing, is missing in B cells when they undergo proliferation, rendering B cells vulnerable to sustained NF-κB activation and eventual lymphomagenesis. Our results uncover MYD88 alternative splicing as an unappreciated promoter of B cell lymphomagenesis and provide a rationale why oncogenic MYD88 mutations are exclusively found in B cells.
Highlights
MyD88 has long been studied as an adaptor molecule for Tolllike receptor (TLR) and Interleukin-1 receptor (IL-1R) signaling in innate immunity [1]
Given the importance that the MyD88s splice variant has been ascribed in murine myeloid cells [17, 23], we sought to conduct a systematic characterization of all known human MYD88 splice variants
Isoform 3 and 5 were not able to induce NF-kB activity, consistent with a lack of intermediate domain (ID), which is required to assemble into a Myddosome and recruit IRAK4 [4, 34]
Summary
MyD88 has long been studied as an adaptor molecule for Tolllike receptor (TLR) and Interleukin-1 receptor (IL-1R) signaling in innate immunity [1]. The varying frequency of the L265P mutation in different B cell malignancies has been puzzling: the MyD88 L265P mutation may be found in up to 90% of Waldenström’s Macroglobulinemia patients [12], in diffuse large B cell lymphoma (DLBCL) and chronic lymphocytic leukemia (CLL) only 30 or 4% of patients carry this or other known gain-of-function MYD88 mutations, Abbreviations: BL, Burkitt Lymphoma; CLL, Chronic Lymphocytic Leukemia; DD, Death Domain; DLA, Dual Luciferase Assay; DLBCL, Diffuse Large B Cell Lymphoma; FL, Follicular Lymphoma; GCB, Germinal Center B Cells; HEK, Human Embryonic Kidney; ID, Intermediate Domain; IL-1R, Interleukin-1 Receptor; IRAK, IL-1R-Associated Kinase; LPS, Lipopolysaccharide; Myd, Myeloid Differentiation 88; NF-kb, Nuclear Factor kb; TIR, Toll/Interleukin-1 Receptor; TLR, Toll-Like Receptor; TNF, Tumor Necrosis Factor; WT, Wild-Type Its strict occurrence in B cell malignancies has highlighted L265P’s diagnostic, chemo- and immunotherapeutic potential [9,10,11] and posed the questions why only B cells are vulnerable to MYD88 gain-of-function mutations? the varying frequency of the L265P mutation in different B cell malignancies has been puzzling: the MyD88 L265P mutation may be found in up to 90% of Waldenström’s Macroglobulinemia patients [12], in diffuse large B cell lymphoma (DLBCL) and chronic lymphocytic leukemia (CLL) only 30 or 4% of patients carry this or other known gain-of-function MYD88 mutations, Abbreviations: BL, Burkitt Lymphoma; CLL, Chronic Lymphocytic Leukemia; DD, Death Domain; DLA, Dual Luciferase Assay; DLBCL, Diffuse Large B Cell Lymphoma; FL, Follicular Lymphoma; GCB, Germinal Center B Cells; HEK, Human Embryonic Kidney; ID, Intermediate Domain; IL-1R, Interleukin-1 Receptor; IRAK, IL-1R-Associated Kinase; LPS, Lipopolysaccharide; Myd, Myeloid Differentiation 88; NF-kb, Nuclear Factor kb; TIR, Toll/Interleukin-1 Receptor; TLR, Toll-Like Receptor; TNF, Tumor Necrosis Factor; WT, Wild-Type
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