SMAC mimetic drives microglia phenotype and glioblastoma immune microenvironment

authors

  • Snacel-Fazy Emmanuel
  • Soubéran Aurélie
  • Grange Magali
  • Joseph Kevin
  • Colin Carole
  • Morando Philippe
  • Luche Hervé
  • Pagano Alessandra
  • Brustlein Sophie
  • Debarbieux Franck
  • Toutain Soline
  • Siret Carole
  • van de Pavert Serge A
  • Rougon Geneviève
  • Figarella-Branger Dominique
  • Ravi Vidhya Madapusi
  • Tabouret Emeline
  • Tchoghandjian Aurélie

keywords

  • Cancer in the nervous system
  • Tumour immunology

document type

ART

abstract

Tumor-associated macrophages/microglia (TAMs) are highly plastic and heterogeneous immune cells that can be immunesupportive or tumor-supportive depending of the microenvironment. TAMs are the most abundant immune cells in glioblastoma (GB), and play a key role in immunosuppression. Therefore, TAMs reprogramming toward immune-supportive cells is a promising strategy to overcome immunosuppression. By leveraging scRNAseq human GB databases, we identified that Inhibitor of Apoptosis Proteins (IAP) were expressed by TAMs. To investigate their role in TAMs-related immunosuppression, we antagonized IAP using the central nervous system permeant SMAC mimetic GDC-0152 (SMg). On explants and cultured immune cells isolated from human GB samples, SMg modified TAMs activity. We showed that SMg treatment promoted microglia pro-apoptotic and anti-tumoral function via caspase-3 pro-inflammatory cleavage and the inhibition of tumoroids growth. Then we designed a relevant immunogenic mouse GB model to decipher the spatio-temporal densities, distribution, phenotypes and function of TAMs with or without SMg treatment. We used 3D imaging techniques, a transgenic mouse with fluorescent TAM subsets and mass cytometry. We confirmed that SMg promoted microglia activation, antigen-presenting function and tumor infiltration. In addition, we observed a remodeling of blood vessels, a decrease in anti-inflammatory macrophages and an increased level of monocytes and their mo-DC progeny. This remodeling of the TAM landscape is associated with an increase in CD8 T cell density and activation. Altogether, these results demonstrated that SMg drives the immunosuppressive basal microglia toward an active phenotype with pro-apoptotic and antitumoral function and modifies the GB immune landscape. This identifies IAP as targets of choice for a potential mechanism-based therapeutic strategy and SMg as a promising molecule for this application.

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