Brain‐derived neurotrophic factor mRNA is expressed in the developing taste bud‐bearing tongue papillae of rat

Brain‐derived neurotrophic factor (BDNF) and nerve growth factor (NGF) are expressed in many areas of the nervous system and its target tissues. Using in situ hybridization we have investigated the possible presence of NGF mRNA and BDNF mRNA in the developing fungiform and circumvallate papillae of the rat tongue. BDNF mRNA is present in the epithelium of the developing fungiform papillae in E15, E16, and E17 rat embryos with peak concentration at E16. It starts to diminish after E17 and is almost absent at E21. There is a specific temporospatial change in the expression of BDNF mRNA in developing circumvallate papillae. It is expressed in the epithelium of the superior and posterior surfaces of the papillae at E15, E16, and E17. Already at E17 the BDNF mRNA labeling has started to decrease in the superior epithelium. At E19 and E21, BDNF mRNA is exclusively present in the epithelium of the inner and outer walls of the trench, surrounding the papilla at the posterior and lateral surfaces where the taste buds are located later in life. BDNF mRNA was also detected in the developing palatal taste buds. NGF mRNA was below detection level in the developing papillae. The highly localized expression of BDNF mRNA in areas where taste buds are to be formed suggests that BDNF may be one crucial factor in the formation of the epithelial innervation prior to taste bud formation. It might also participate in the formation and/or maintenance of the papillary and/or taste bud innervation apparatus. We conclude that the neurotrophin BDNF is expressed in early development of taste bud‐bearing papillae in the rat tongue in a temporally and spatially controlled manner, presumably to act as a target‐derived chemoat tractant for the early nerve fibers. © 1995 Wiley‐Liss, Inc.

[1]  Rudolf Jaenisch,et al.  Mice lacking brain-derived neurotrophic factor develop with sensory deficits , 1994, Nature.

[2]  M. Bothwell,et al.  Neurotrophin and neurotrophin receptor mRNA expression in developing inner ear , 1994, Hearing Research.

[3]  M. Bothwell,et al.  Expression of BDNF and NT-3 mRNA in hair cells of the organ of Corti: Quantitative analysis in developing rats , 1994, Hearing Research.

[4]  M. Avila,et al.  Brain-derived neurotrophic factor and neurotrophin-3 support the survival and neuritogenesis response of developing cochleovestibular ganglion neurons , 1993 .

[5]  G. Yancopoulos,et al.  Neurotrophin-4 is a target-derived neurotrophic factor for neurons of the trigeminal ganglion. , 1993, Development.

[6]  M. Saarma,et al.  Expression patterns of neurotrophin and their receptor mRNAs in the rat inner ear , 1993, Hearing Research.

[7]  C. Ibáñez,et al.  Cellular Localization of Brain‐derived Neurotrophic Factor and Neurotrophin‐3 mRNA Expression in the Early Chicken Embryo , 1993, The European journal of neuroscience.

[8]  A. Farbman,et al.  Early development and innervation of taste bud‐bearing papillae on the rat tongue , 1991, The Journal of comparative neurology.

[9]  L. Olson,et al.  Localization of brain-derived neurotrophic factor mRNA to neurons in the brain by in situ hybridization , 1990, Experimental Neurology.

[10]  H. Thoenen,et al.  Molecular cloning and expression of brain-derived neurotrophic factor , 1989, Nature.

[11]  A. Farbman,et al.  Changes in number and morphology of fungiform taste buds in rat after transection of the chorda tympani or chordalingual nerve , 1989 .

[12]  Yves-Alain Barde,et al.  Trophic factors and neuronal survival , 1989, Neuron.

[13]  D. Larhammar,et al.  Rat β‐nerve growth factor sequence and site of synthesis in the adult hippocampus , 1988, Journal of neuroscience research.

[14]  E. Kinnman,et al.  Collateral reinnervation of taste buds after chronic sensory denervation: A morphological study , 1988, The Journal of comparative neurology.

[15]  R. Levi‐montalcini,et al.  The nerve growth factor 35 years later. , 1987, Science.

[16]  B. Dinger,et al.  Gustatory trophic action of arterial chemosensory neurones in the cat. , 1984, The Journal of physiology.

[17]  L. Olson,et al.  Intraocular Transplantation in Rodents: A Detailed Account of the Procedure and Examples of its Use in Neurobiology with Special Reference to Brain Tissue Grafting , 1983 .

[18]  I. J. Miller,et al.  Spatial distribution of rat fungiform papillae , 1975, The Anatomical record.

[19]  A. Zalewski NEURONAL AND TISSUE SPECIFICATIONS INVOLVED IN TASTE BUD FORMATION , 1974, Annals of the New York Academy of Sciences.

[20]  A. Zalewski,et al.  Regeneration of taste buds after transplantation of tongue and ganglia grafts to the anterior chamber of the eye. , 1972, Experimental neurology.

[21]  L. M. Beidler,et al.  RENEWAL OF CELLS WITHIN TASTE BUDS , 1965, The Journal of cell biology.

[22]  A. Farbman ELECTRON MICROSCOPE STUDY OF THE DEVELOPING TASTE BUD IN RAT FUNGIFORM PAPILLA. , 1965, Developmental biology.

[23]  C. P. Richter,et al.  The anatomy of the tongue of the domestic norway rat. I. The skin of the tongue; the various papillae; their number and distribution , 1944 .

[24]  T. W. Torrey The Influence of Nerve Fibers upon Taste Buds During Embryonic Development. , 1940, Proceedings of the National Academy of Sciences of the United States of America.

[25]  J. Olmsted,et al.  Taste fibers and the fifth nerve , 1934 .

[26]  T. W. Torrey The relation of taste buds to their nerve fibers , 1931, Proceedings of the National Academy of Sciences of the United States of America.

[27]  E. Allis On certain features of the latero‐sensory canals of the Plagiostomi , 1922 .

[28]  J. Olmsted Taste fibers and the chorda tympani nerve , 1922 .

[29]  J. Olmsted Effects of cutting the lingual nerve of the dog , 1921 .

[30]  F. Hermann Beitrag zur Entwicklungsgeschichte des Geschmacksorgans beim Kaninchen , 1884 .