The immunosuppressive effect of the tick protein, Salp15, is long-lasting and persists in a murine model of hematopoietic transplant

Open Access

Abstract

Salp15, a salivary protein of Ixodes ticks, inhibits the activation of naïve CD4 T cells. Treatment with Salp15 results in the inhibition of early signaling events and the production of the autocrine growth factor, interleukin-2. The fate of the CD4 T cells activated in the presence of Salp15 or its long-term effects are, however, unknown. We now show that Salp15 binding to CD4 is persistent and induces a long-lasting immunomodulatory effect. The activity of Salp15 results in sustained diminished cross-antigenic antibody production even after interruption of the treatment with the protein. Transcriptionally, the salivary protein provokes an acute effect that includes known activation markers, such as Il2 or Cd44, and that fades over time. The long-term effects exerted by Salp15 do not involve the induction of either anergy traits nor increased populations of regulatory T cells. Similarly, the treatment with Salp15 does not result in B cell anergy or the generation of myeloid suppressor cells. However, Salp15 induces the increased expression of the ectoenzyme, CD73, in regulatory T cells and increased production of adenosine. Our study provides a profound characterization of the immunomodulatory activity of Salp15 and suggests that its long-term effects are due to the specific regulation of CD73. Introduction ; Supported by grants from the Department of Education of the Basque Government (PI2013-49 to JA and PI2012-42 to RB). JA is funded by the European Union (Grant Agreement number 602272). AMA and JLL's work was supported by the Basque Department of Industry, Tourism and Trade (Etortek and Elkartek Programs), the Innovation Technology Department of Bizkaia and the CIBERehd Network. The work of AC is supported by a Ramón y Cajal award, the Basque Department of Industry, Tourism and Trade (Etortek), ISCIII (PI13/00031), FERO VIII Fellowship, the BBVA foundation, MINECO (SAF2016-79381-R) and the European Research Council Starting Grant (336343). CIBERonc was co-funded with FEDER funds. AC-M was funded by a Juan de la Cierva program award and the European Union MSCA program (CIG 660191). RB was funded by MINECO grants BFU2011-25986 and BFU2014-52282-P and the Consolider Program (BFU2014-57703-REDC). FJB was funded by a MINECO grant (CTQ2014-56966-R). D.B. is funded by a MINECO FPI fellowship. We thank the MINECO for the Severo Ochoa Excellence accreditation (SEV-2016-0644). ; Peer reviewed