Litcius/Paper detail

Agent-based computational modeling of glioblastoma predicts that stromal density is central to oncolytic virus efficacy

Adrianne L. Jenner, Munisha Smalley, David Goldman, William F. Goins, Charles Cobbs, Ralph B. Puchalski, E. Antonio Chiocca, Sean Lawler, Paul Macklin, Aaron Goldman, Morgan Craig

2022iScience54 citationsDOIOpen Access PDF

Abstract

tumor model developed from human glioblastoma tissue to evaluate the infiltration of herpes simplex OV rQNestin (oHSV-1) into glioblastoma tumors. We next leveraged our data to develop a computational, model of glioblastoma dynamics that accounts for cellular interactions within the tumor. Using our computational model, we found that low stromal density was highly predictive of oHSV-1 therapeutic success, suggesting that the efficacy of oHSV-1 in glioblastoma may be determined by stromal-to-tumor cell regional density. We validated these findings in heterogenous patient samples from brain metastatic adenocarcinoma. Our integrated modeling strategy can be applied to suggest mechanisms of therapeutic responses for central nervous system cancers and to facilitate the successful translation of OVs into the clinic.

Topics & Concepts

Oncolytic virusGlioblastomaStromal cellComputational biologyCancer researchVirusVirologyBiologyVirus-based gene therapy researchCAR-T cell therapy researchViral Infectious Diseases and Gene Expression in Insects