PLoS ONE (Jan 2014)

Recombinant p35 from bacteria can form Interleukin (IL-)12, but Not IL-35.

  • Samadhi Aparicio-Siegmund,
  • Jens M Moll,
  • Juliane Lokau,
  • Melanie Grusdat,
  • Jutta Schröder,
  • Svenja Plöhn,
  • Stefan Rose-John,
  • Joachim Grötzinger,
  • Philipp A Lang,
  • Jürgen Scheller,
  • Christoph Garbers

DOI
https://doi.org/10.1371/journal.pone.0107990
Journal volume & issue
Vol. 9, no. 9
p. e107990

Abstract

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The Interleukin (IL)-12 family contains several heterodimeric composite cytokines which share subunits among each other. IL-12 consists of the subunits p40 (shared with IL-23) and p35. p35 is shared with the composite cytokine IL-35 which comprises of the p35/EBI3 heterodimer (EBI3 shared with IL-27). IL-35 signals via homo- or heterodimers of IL-12Rβ2, gp130 and WSX-1, which are shared with IL-12 and IL-27 receptor complexes, respectively. p35 was efficiently secreted in complex with p40 as IL-12 but not with EBI3 as IL-35 in several transfected cell lines tested which complicates the analysis of IL-35 signal transduction. p35 and p40 but not p35 and EBI3 form an inter-chain disulfide bridge. Mutation of the responsible cysteine residue (p40C197A) reduced IL-12 formation and activity only slightly. Importantly, the p40C197A mutation prevented the formation of antagonistic p40 homodimers which enabled the in vitro reconstitution of biologically active IL-12 with p35 produced in bacteria (p35bac). Reconstitution of IL-35 with p35bac and EBI3 did, however, fail to induce signal transduction in Ba/F3 cells expressing IL-12Rβ2 and gp130. In summary, we describe the in vitro reconstitution of IL-12, but fail to produce recombinant IL-35 by this novel approach.