Galvez-Melero, L.; Garcia-Fuster, M. J.

Temozolomide is the gold standard chemotherapeutic agent used in the treatment of glioblastoma multiforme. Yet its pharmacological use has been linked to the emergence of depressive- and/or anxiety-like behaviors, probably through the inhibition of hippocampal neurogenesis. Since prior studies reporting these negative effects were based on prolonged treatment paradigms (i.e., from 2 weeks to up to 6 months), and given the few reports that have included female rodents in their studies, our approach aimed at further characterizing the behavioral effects induced by temozolomide (25 mg/kg, 1 or 2 cycles, 5 days/cycle) in a mixed-sex cohort of adult rats. To do so, rats were scored across time through specific behavioral tests that capture diverse manifestations of affective-like responses (forced-swim, open field, novelty-suppressed feeding and sucrose preference) or cognitive performance (Barnes maze). At the neurochemical level, we ascertained the effects of 2 cycles of temozolomide on hippocampal neurogenesis (neural progenitors with NeuroD) and other potential neuroplasticity targets (i.e., FADD, BDNF). The main results showed that temozolomide induced unexpected antidepressant-like responses in a treatment-duration manner while decreased hippocampal FADD, a neuroplastic marker previously associated with the acute and repeated actions of most antidepressants. These results break the prior dogma linking increased hippocampal neurogenesis with antidepressant-like efficacy, and suggest that other mechanisms of action, such as the one described through the neuroplastic molecule FADD, might be responsible for the antidepressant-like actions of temozolomide, even in the presence of impaired neurogenesis. Our results, in conjunction with the prior data, suggested cycle- and/or length-dependent treatment effects in terms of temozolomide antidepressant- vs. depressant-like profile, while proposing a novel biomarker of its treatment response.