Rachel Rattenni scite author profile

Glioblastomas (GBMs) are malignant tumors characterized by their vascularity and invasive capabilities. Antiangiogenic therapy (AAT) is a treatment option that targets GBM-associated vasculature to mitigate the growth of GBMs. However, AAT demonstrates transient effects because many patients eventually develop resistance to this treatment. Several recent studies attempt to explain the molecular and biochemical basis of resistance to AAT in GBM patients. Experimental investigations suggest that the induction of extensive intratumoral hypoxia plays a key role in GBM escape from AAT. In this review, we examine AAT resistance in GBMs, with an emphasis on six potential hypoxia-mediated mechanisms: enhanced invasion and migration, including increased expression of matrix metalloproteinases and activation of the c-MET tyrosine kinase pathway; shifts in cellular metabolism, including up-regulation of hypoxia inducible factor-1α's downstream processes and the Warburg effect; induction of autophagy; augmentation of GBM stem cell self-renewal; possible implications of GBM-endothelial cell transdifferentiation; and vasoformative responses, including vasculogenesis, alternative angiogenic pathways, and vascular mimicry. Juxtaposing recent studies on well-established resistance pathways with that of emerging mechanisms highlights the overall complexity of GBM treatment resistance while also providing direction for further investigation.

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Intraoperative Spinal Cord and Nerve Root Monitoring: A Pilot Survey

Rattenni¹,

Cheriyan²,

Lee³

et al. 2014

The Spine Journal

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Newer Motion Preservation Technologies

Slobodyanyuk¹,

Rattenni²,

Cheriyan³

et al. 2015

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Intraoperative Monitoringin Spine Surgery

Cheriyan¹,

Rattenni²,

Cheriyan³

et al. 2015

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Rachel Rattenni

Efficacy of tranexamic acid on surgical bleeding in spine surgery: a meta-analysis

Hypoxia-Mediated Mechanisms Associated with Antiangiogenic Treatment Resistance in Glioblastomas

Intraoperative Spinal Cord and Nerve Root Monitoring: A Pilot Survey

Newer Motion Preservation Technologies

Intraoperative Monitoringin Spine Surgery

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