Drug resistance is a major barrier to cancer therapies and remains poorly understood. Recently, non-mutational mechanisms of drug resistance have been proposed where a more plastic metabolic response can play a major role. Here, we show that upon drug resistance, glioblastoma (GBM) cells have increased oxidative stress, mitochondria function, and protein aggregation. Gamma (γ)-glutamylcyclotranserase (GGCT), an enzyme in the γ-glutamyl cycle for glutathione production, located on chromosome 7 which is commonly amplified in GBM is also increased upon resistance. We further observe that the byproduct of GGCT-pyroglutamic acid-can bind aggregating proteins and that genetic and pharmacological inhibition of GGCT prevents protein aggregation. Finally, we found increased protein aggregation, GGCT expression, and pyroglutamic acid staining in recurrent GBM patient samples, adjacent non-tumor brain, and Alzheimer's brains. These findings suggest a new pathway for protein aggregation within drug resistant brain cancer that should be further studied in other brain disorders.