Upregulation of growth associated protein 43 expression and neuronal co-expression with neuropeptide Y following inferior alveolar nerve axotomy in the rat.

Growth associated protein 43 (GAP 43) is an acidic membrane-bound phosphoprotein produced at high levels in developing and regenerating neurons. It is a substrate for protein kinase C and suggested to be involved in calcium-regulated release of axonal vesicular-contained neurotransmitters. Expression of GAP 43 has been demonstrated in the uninjured cat dental pulp which receives its sensory nerve supply from the trigeminal ganglion. The aim of this study was a detailed mapping of the spatial and time-dependent expression of GAP 43 and co-expression of neuropeptide Y (NPY) in dental peripheral target tissues and trigeminal neurons subsequent to inferior alveolar nerve (IAN) axotomy in rats, as background for later low-level laser studies. Unilateral sectioning of IAN, resulting in an almost complete loss of sensory nerve fibers in the ipsilateral dental pulp of the first molar, was performed. The avidin biotin complex (ABC) method was used to evaluate peripheral changes in GAP 43 expression at 4, 7 and 10 days. Ganglionic changes in GAP 43 and co-localization of neuronal NPY expression was examined at 4, 10 and 21 days using either the ABC method or double immunofluorescence labelling techniques and confocal microscopy. Axotomy resulted in an early upregulation and change in the peripheral distribution of GAP 43 in nerve profiles already 4 days post IAN axotomy suggesting a Schwann cell origin. Ten days post axotomy a pronounced upregulation of GAP 43 immunoreactivity could be demonstrated in neurons located in the mandibular region of the trigeminal ganglion, compared to the contralateral uninjured side. The peripheral and ganglionic upregulation of GAP 43 continued to persist at 21 days. A concomitant time-delayed shift and co-expression of NPY was demonstrated throughout in the GAP 43-upregulated ganglion cells 10 days post axotomy. Furthermore, confocal microscopy indicated that the intraneuronal distribution of NPY and upregulated GAP 43 expression showed a similar conformity and distribution in both perinuclear regions and cell periphery.