Page 46 - WNS 2022 Exhibitors E-Program Booklet
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Reprogramming the glioblastoma immune microenvironment with con-
            vection enhanced gene therapy reveals intratumor IL6 drives glioblasto-
            ma immunosuppression and growth
            Jacob S. Young, MD, Resident, Department of Neurological Surgery
            University of California, San Francisco
            INTRODUCTION:  The  glioblastoma  microenvironment  is  an  immunosuppres-
            sive  barrier  to  therapeutic  innovation.  Here,  we  utilize  intratumor  convection
            enhanced delivery (CED) of gene therapy vectors to reprogram the glioblasto-
            ma immune microenvironment and elucidate therapeutic vulnerabilities.
            METHODS: SB28 or GL261 glioblastoma allografts were implanted into immu-
            nocompetent mice and treated with CED of attenuated adeno-associated virus
            9 vectors (AAV9) encoding experimental cytokines (Il1b, Ccl4, or Apoa1) under-
            lying  infiltration  or  activation  of  anti-tumor  immune  cells  in  other  intracranial
            tumors.  Serial  intracranial  bioluminescence  was  used  to  assess  glioblastoma
            growth  and  animals  were monitored  for survival. The impact  of  gene  therapy
            perturbations  on  the  glioblastoma  immune  microenvironment  was  assessed
            using  histology,  immunohistochemistry,  single-cell  mass  cytometry  (CyTOF),
            and  multiplexed  cytokine  assays.  CYTOF  and single-cell  RNA sequencing  of
            human glioblastomas was performed for comparison with mouse glioblastoma
            samples.
            RESULTS:  Serial  body  weight  and  systemic  multiplexed  cytokine  measure-
            ments showed no evidence of treatment toxicity. AAV9-APOA1 or AAV9-IL1B
            gene therapy CED treatments attenuated SB28 growth and prolonged survival,
            decreasing immunosuppressive macrophage infiltration and increasing CD8 T
            cell and microglia infiltration of the glioblastoma microenvironment compared to
            control AAV9 vectors. Gene therapy CED treatments did not attenuate GL261
            growth or prolong survival, but CyTOF of human glioblastomas (n=6) in com-
            parison  to  preclinical  models  revealed  untreated  GL261  glioblastomas  were
            endogenously enriched in CD8 T cells and other lymphoid lineages compared
            to  untreated  SB28  or  human  glioblastomas.  Multiplexed  cytokine  assays
            demonstrated suppression of intratumor IL6 is a conserved mechanism of ac-
            tion  underlying  glioblastoma  gene  therapy  responses  (SFig.  1).  Analysis  of
            single-cell RNA sequencing of 32,877 cells from human glioblastomas (n=11)
            showed IL6 is predominantly produced by radial glial like cancer stem cells or
            endothelial cells  in the  tumor microenvironment.  In support  of these  findings,
            survival  from  intracranial  SB28  glioblastomas  was  prolonged  in  Il6  knockout
            C57BL/6J mice compared to wildtype mice.
            CONCLUSIONS:  Gene  therapy  and  CED  to  reprogram  the  glioblastoma  im-
            mune  microenvironment  reveals  IL6  drives  glioblastoma  immunosuppression
            and growth.
            Supplementary Figure 1. Multiplex cytokine array from SB28 tumors treated
            with CED gene therapy shows conserved downregulation of IL-6 and LIF
            across treatment conditions.














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