Alterations in geniculate ganglion proteins following fungiform receptor damage.

Previous anatomical studies in rat have shown that damage produced to fungiform receptors of the anterior tongue at postnatal age 2 (P2) alters the growth and ramification of primary gustatory axons in the rostral nucleus of the solitary tract (NST). Studies employing artificial rearing (AR) procedures, which functionally deprive rat pups of orochemical stimulation during critical periods of postnatal life, produce similar alterations in the development of primary gustatory axons in the NST. Therefore, orochemical stimulation during rat's early postnatal life is necessary for normal development of primary gustatory axons in the rostral NST.

Immunohistochemical correlates of peripheral gustatory sensitivity to sodium and amiloride.

In mammals, transduction of sodium stimuli occurs via amiloride-sensitive sodium channels. In rat, gustatory physiological sensitivity to sodium stimuli develops gradually during the early postnatal period. In addition, if pregnant rats are subjected to dietary sodium restriction during gestation, their offspring fail to develop normal gustatory physiological responses to sodium and sensitivity to amiloride.

Effects of orochemical stimulation on postnatal development of gustatory recipient zones within the nucleus of the solitary tract.

Previous receptor damage studies and artificial rearing (AR) studies in rat have demonstrated that orochemical stimulation between the postnatal ages of P2 and P14 is necessary for development of primary gustatory axons and terminal endings in the rostral nucleus of the solitary tract (NST). Objectives of the present experiment were to evaluate the qualitative nature of orochemical stimulation and amount of orochemical stimulation that is necessary to produce normal axonal and terminal development in gustatory recipient zones of the rostral and intermediate NST. To this end, ultra-pure water, 30, 150, and 500 mM NaCl, 80 and 340 mM lactose, whole rat milk, and rat milk that had been subject to extensive dialysis (12-14 kD MWCO) was delivered to independent groups of rat pups during AR procedures.

Artificial rearing alters development of the nucleus of the solitary tract.

Previous studies have shown that damage induced to fungiform papillae of the anterior tongue at postnatal day 2 (P2) alters both pre- and postsynaptic development of gustatory recipient zones within the rostral nucleus of the solitary tract (NST). The present study was conducted to determine whether or not artificial rearing (AR) manipulations, which reduce normal orochemical stimulation during early postnatal development, would be sufficient to produce alterations in anatomical development of the rostral gustatory NST. Two groups of Long-Evans hooded rats were examined.

Postnatal development of gustatory recipient zones within the nucleus of the solitary tract.

Previous studies have examined pre- and postsynaptic development of the first-order central gustatory relay, located in the rostral nucleus of the solitary tract (NST). This region of the NST is innervated by primary gustatory axons arising from the facial-intermediate nerve. However, a large portion of the gustatory NST is innervated by axons arising from the glossopharyngeal nerve, and although the time course for development of N.