Effect of human very low-density lipoproteins on cardiotrophin-like cytokine factor 1 (CLCF1) activity.

The cytokines CLCF1 and CNTF are ligands for the CNTF receptor and the apolipoprotein E (ApoE) receptor sortilin. Both share structural similarities with the N-terminal domain of ApoE, known to bind CNTF. We therefore evaluated whether ApoE or ApoE-containing lipoproteins interact with CLCF1 and regulate its activity. We observed that CLCF1 forms complexes with the three major isoforms of ApoE in co-immunoprecipitation and proximity assays. FPLC analysis of mouse and human sera mixed with CLCF1 revealed that CLCF1 co-purifies with plasma lipoproteins. Studies with sera from ApoE-/- mice indicate that ApoE is not required for CLCF1-lipoprotein interactions. VLDL- and LDL-CLCF1 binding was confirmed using proximity and ligand blots assays. CLCF1-induced STAT3 phosphorylation was significantly reduced when the cytokine was complexed with VLDL. Physiological relevance of our findings was asserted in a mouse model of oxygen-induced retinopathy, where the beneficial anti-angiogenic properties of CLCF1 were abrogated when co-administrated with VLDL, indicating, that CLCF1 binds purified lipoproteins or lipoproteins in physiological fluids such as serum and behave as a "lipocytokine". Albeit it is clear that lipoproteins modulate CLCF1 activity, it remains to be determined whether lipoprotein binding directly contributes to its neurotrophic function and its roles in metabolic regulation.

Epstein-Barr virus-induced gene 3 (EBI3) can mediate IL-6 trans-signaling.

Epstein-Barr virus-induced gene 3 (EBI3) is a subunit of the composite cytokines IL-27 and IL-35. Both have beneficial functions or effects in models of infectious and autoimmune diseases. This suggests that administration of EBI3 could be therapeutically useful by binding free p28 and p35 to generate IL-27 and IL-35. IL-27- and IL-35-independent functions of EBI3 could compromise its therapeutic uses. We therefore assessed the effects of EBI3 on cytokine receptor-expressing cells. We observed that EBI3 activates STAT3 and induces the proliferation of the IL-6-dependent B9 mouse plasmacytoma cell line. Analyses using blocking mAbs and Ba/F3 transfectants expressing gp130 indicate that EBI3 activity was linked to its capacity to mediate IL-6 trans-signaling, albeit less efficiently than soluble IL-6Rα. In line with this interpretation, co-immunoprecipitation and SPR experiments indicated that EBI3 binds IL-6. An important pro-inflammatory function of IL-6 trans-signaling is to activate blood vessel endothelial cells. We observed that EBI3 in combination with IL-6 could induce the expression of chemokines by human venal endothelial cells. Our results indicate that EBI3 can promote pro-inflammatory IL-6 functions by mediating trans-signaling. These unexpected observations suggest that use of EBI3 as a therapeutic biologic for autoimmune diseases will likely require co-administration of soluble gp130 to prevent the side effects associated with IL-6 trans-signaling. Together with previous studies that demonstrated activation of IL-6R by p28 (IL-30), new findings further suggest a complex interrelation between IL-27 and IL-6.

The composite cytokine p28/cytokine-like factor 1 sustains B cell proliferation and promotes plasma cell differentiation.

IL-27 is an APC-derived IL-6/IL-12 family composite cytokine with multiple functions such as regulation of Th1, Th17, and regulatory T cell differentiation, B cell proliferation, and Ig class switching. The IL-27 complex is formed by the association of the cytokine p28 with the soluble cytokine receptor EBV-induced gene 3 (EBI3). The IL-27 cytokine and soluble receptor subunits p28 and EBI3 can be secreted independently. The p28 subunit has been shown to have IL-27-independent biological activities. We previously demonstrated that p28 can form an alternative composite cytokine with the EBI3 homolog cytokine-like factor 1 (CLF; CRLF1). p28/CLF modulates NK cell activity and CD4 T cell cytokine production in vitro. In this study we used IL-6-dependent plasmacytoma cell line B9 and CD4 T cells from IL-27Rα-deficient mice to demonstrate that p28/CLF activates IL-27-unresponsive cells, indicating that p28/CLF and IL-27 signal through different receptors. The observation that p28/CLF, unlike IL-27, sustains B9 plasmacytoma cell proliferation prompted us to investigate the effects of p28/CLF on mouse B cells. We observed that p28/CLF induces IgM, IgG2c, and IgG1 production and plasma cell differentiation. p28/CLF therefore has the potential to contribute to B and plasma cell function, differentiation, and proliferation in normal and pathological conditions such as Castelman's disease and multiple myeloma.