Abstract

Pregnant Wistar rats were exposed to a single 1.0 Gy dose of gamma rays on gestational days 13, 15, 17 or 19 (E13s, E15s, E17s and E19s, respectively). A mechanical injury was made in the cerebral hemisphere of their 6 day-old male offsprings. The injured rats were injected with [ 3 H ] thymidine on day 1 or 2 after injury and killed 4 h after the injection. Brain sections were processed for BSI-B4 isolectin histochemistry, subjected to autoradiography and examined microscopically to record numbers of proliferating and unproliferating macrophages located within the region of injury. The total number of macrophages as well as number of their divisions were minimal in E13s then showed a regular increase in E15s and E17s, and reached its maximal level in brains irradiated on E19. The trend of changes was opposite to that showed by changes in the intensity of astrocyte proliferation [Z. Setkowicz, K. Janeczko, Effects of prenatal gamma-irradiation on the astrocyte proliferation in response to injury in the brain of 6-day-old rat, Brain Res. 803 (1998) 122–128.]. The recruitment and proliferation of macrophages and the astrocyte proliferation were regarded as reactive processes occurring under control of different regulatory mechanisms acting within the region of injury.

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