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Time- and Region-Specific Effects of Intranasal Insulin on Oxidative Stress Parameters in the Rat Brain.

Created on 06 Jul 2026

Authors

Jelena Osmanovic Barilar, Leonarda Vlahov, Antonia Krsnik, Luka Mihalic, Ana Babic Perhoc, Davor Virag, Jan Homolak, Melita Salkovic-Petrisic, Ana Knezovic

Published in

FASEB journal : official publication of the Federation of American Societies for Experimental Biology. Volume 40. Issue 13. Pages e72119. Jul 15, 2026.

Abstract

Understanding how intranasal insulin affects brain signaling and metabolism is essential for elucidating its therapeutic potential in neurodegenerative disorders with underlying metabolic dysfunction, such as Alzheimer's disease (AD). Oxidative stress, which increases with aging, has been observed in both AD and Type 2 diabetes, indicating a potential link between oxidative stress, brain insulin resistance and cognitive impairment. This study examined how intranasal insulin affects redox homeostasis across different brain regions and time points. Male Wistar rats received 2 IU of insulin intranasally and were sacrificed 3, 7.5, 15, 30, 60, and 120 min post-administration. Six animals served as intact controls. Redox homeostasis was assessed by measuring lipid peroxidation, total reductive capacity, thiol concentrations, and superoxide dismutase activity in plasma, nasal epithelia, and brain regions. The results were correlated with insulin signaling markers. Intranasal insulin induced rapid but regionally diverse redox responses. The most pronounced alterations occurred in nasal epithelia, where respiratory and olfactory regions exhibited distinct and opposing patterns. In the brain, significant alterations, particularly in thiol-related parameters, were observed across multiple regions including cortices, hippocampus, hypothalamus, olfactory bulb, and cerebellum. Plasma redox parameters remained largely unchanged, supporting the predominantly central action of intranasally delivered insulin. Correlation analyses revealed associations between oxidative stress markers and insulin signaling parameters, suggesting complex interactions between metabolic signaling pathways and redox regulation. These findings demonstrate that intranasal insulin modulates redox homeostasis in a rapid, region-specific, and time-dependent manner, highlighting the importance of spatial and temporal factors in insulin-mediated regulation of brain oxidative balance.

PMID:
42402181
Bibliographic data and abstract were imported from PubMed on 06 Jul 2026.

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