Jesse Lerner scite author profile

Although rodent glioblastoma (GBM) models have been used for over 30 years, the extent to which they recapitulate the characteristics encountered in human GBMs remains controversial. We studied the histopathological features of dog GBM and human xenograft GBM models in immune-deficient mice (U251 and U87 GBM in nude Balb/c), and syngeneic GBMs in immune-competent rodents (GL26 cells in C57BL/6 mice, CNS-1 cells in Lewis rats). All GBMs studied exhibited neovascularization, pleomorphism, vimentin immunoreactivity, and infiltration of T-cells and macrophages. All the tumors showed necrosis and hemorrhages, except the U87 human xenograft, in which the most salient feature was its profuse neovascularization. The tumors differed in the expression of astrocytic intermediate filaments: human and dog GBMs, as well as U251 xenografts expressed glial fibrillary acidic protein (GFAP) and vimentin, while the U87 xenograft and the syngeneic rodent GBMs were GFAP(-) and vimentin(+). Also, only dog GBMs exhibited endothelial proliferation, a key feature that was absent in the murine models. In all spontaneous and implanted GBMs we found histopathological features compatible with tumor invasion into the non-neoplastic brain parenchyma. Our data indicate that murine models of GBM appear to recapitulate several of the human GBM histopathological features and, considering their reproducibility and availability, they constitute a valuable in vivo system for preclinical studies. Importantly, our results indicate that dog GBM emerges as an attractive animal model for testing novel therapies in a spontaneous tumor in the context of a larger brain.

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Two-Parameter Mobility Assessments Discriminate Diverse Regulatory Factor Behaviors in Chromatin

Lerner

et al. 2020

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Release of HMGB1 in Response to Proapoptotic Glioma Killing Strategies: Efficacy and Neurotoxicity

et al. 2009

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Purpose: In preparation for a phase I clinical trial using a combined cytotoxic/immunotherapeutic strategy with adenoviruses (Ad) expressing Flt3L (Ad-Flt3L) and thymidine kinase (Ad-TK) to treat glioblastoma (GBM), we tested the hypothesis that Ad-TK+GCV would be the optimal tumor-killing agent in relation to efficacy and safety when compared with other proapoptotic approaches. Experimental Design: The efficacy and neurotoxicity of Ad-TK+GCV was compared with Ads encoding the proapoptotic cytokines [tumor necrosis factor-a, tumor necrosis factor^related apoptosis-inducing factor (TRAIL), and Fas ligand (FasL)], alone or in combination with Ad-Flt3L. In rats bearing small GBMs (day 4), only Ad-TK+GCV or Ad-FasL improved survival. Results: In rats bearing large GBMs (day 9), the combination of Ad-Flt3L with Ad-FasL did not improve survival over FasL alone, whereas Ad-Flt3L combined with Ad-TK+GCV led to 70% long-term survival. Expression of FasL and TRAIL caused severe neuropathology, which was not encountered when we used Ad-TK+/-Ad-Flt3L. In vitro, all treatments elicited release of high mobility group box 1protein (HMGB1) from dying tumor cells. In vivo, the highest levels of circulating HMGB1 were observed after treatment with Ad-TK+GCV+Ad-Flt3L; HMGB1 was necessary for the therapeutic efficacy of AdTK+GCV+Ad-Flt3L because its blockade with glycyrrhizin completely blocked tumor regression. We also showed the killing efficacy of Ad-TK+GCV in human GBM cell lines and GBM primary cultures, which also elicited release of HMGB1. Conclusions: Our results indicate that Ad-TK+GCV+Ad-Flt3L exhibit the highest efficacy and safety profile among the several proapoptotic approaches tested. The results reported further support the implementation of this combined approach in a phase I clinical trial for GBM.

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Jesse Lerner

Intracranial glioblastoma models in preclinical neuro-oncology: neuropathological characterization and tumor progression

Two-Parameter Mobility Assessments Discriminate Diverse Regulatory Factor Behaviors in Chromatin

Release of HMGB1 in Response to Proapoptotic Glioma Killing Strategies: Efficacy and Neurotoxicity

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