Internucleosomal DNA fragmentation during deprived and non-deprived olfactory development.

DNA fragmentation is a key marker of neuronal death during development, yet little is known about the size, pattern or quantities of fragments generated during normal and sensory-deprived development. Since there are few neurons dying at any particular time, it has not been possible to obtain sufficient quantities of material to make such a determination. By using a highly sensitive Taq polymerase-based technique, we revealed DNA fragments of 180 base pairs and multiples thereof both in bulbs and cortex of young rats (P4-P31). The bulbs subjected to olfactory deprivation at P1 had higher levels of internucleosomal DNA fragmentation at P16 than the contra-lateral, non-deprived bulbs. Interestingly, the DNA fragmentation induced by olfactory deprivation displayed a characteristic internucleosomal fragmentation pattern, suggesting that the cells induced to die may do so by apoptosis. A significant inverse correlation between DNA fragmentation and the natural variation in normal bulb size was found, suggesting that bulb size may be related to cell death.