Open Access
The neurotoxic effect of isoflurane on age‐defined neurons generated from tertiary dentate matrix in mice
Author(s) -
Xiao XinLi,
Wu JingTao,
Zhang HanZe,
Wang YiDi,
Zhang JingQiao,
Liu LeFan,
Yang PengBo,
Wu XiaoLin,
Liu JianXin
Publication year - 2021
Publication title -
brain and behavior
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.915
H-Index - 41
ISSN - 2162-3279
DOI - 10.1002/brb3.1949
Subject(s) - neurogenesis , dentate gyrus , hippocampal formation , isoflurane , neun , hippocampus , population , medicine , endocrinology , chemistry , biology , neuroscience , anesthesia , immunohistochemistry , environmental health
Abstract Introduction Recent animal studies showed that isoflurane exposure may lead to the disturbance of hippocampal neurogenesis and later cognitive impairment. However, much less is known about the effect of isoflurane exposure on the neurons generated form tertiary dentate matrix, even though a great increase of granule cell population during the infantile period is principally derived from this area. Methods To label the new cells originated from the tertiary dentate matrix, the mice were injected with BrdU on postnatal day 6 (P6). Then, the mice were exposed to isoflurane for 4 hr at 1, 8, 21, and 42 days after BrdU injection, and the brains were collected 24 hr later. The loss of newly generated cells/neurons with different developmental stage was assessed by BrdU, BrdU + DCX, BrdU + NeuN, or BrdU + Prox‐1 staining, respectively. Results We found that the isoflurane exposure significantly decreased the numbers of nascent cells (1 day old) and mature neurons (42 days old), but had no effect on the immature (8 days old) and early mature neurons (8 and 21 days old, respectively). Conclusion The results suggested isoflurane exposure exerts the neurotoxic effects on the tertiary dentate matrix‐originated cells with an age‐defined pattern in mice, which partly explain the cognitive impairment resulting from isoflurane exposure to the young brain.