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Research Article

Role of Cerebellohypothalamic GABAergic Projection in Mediating Cerebellar Immunomodulation

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Pages 237-245 | Received 06 Jul 2010, Published online: 06 May 2011

REFERENCES

  • Baciu, I., Hriscu, M., & Saulea, G. (2003). Hypothalamic mechanisms of immunity. International Journal of Neuroscience, 113(2), 259–277.
  • Backberg, M., Ultenius, C., Fritschy, J. M., & Meister, B. (2004). Cellular localization of GABA receptor alpha subunit immunoreactivity in the rat hypothalamus: Relationship with neurons containing orexigenic or anorexigenic peptides. Journal of Neuroendocrinology, 16(7), 589–604.
  • Bradley, D. J., Pascoe, J. P., Paton, J. F., & Spyer, K. M. (1987). Cardiovascular and respiratory responses evoked from the posterior cerebellar cortex and fastigial nucleus in the cat. Journal of Physiology, 393, 107–121.
  • Chung, S. H., Marzban, H., & Hawkes, R. (2009). Compartmentation of the cerebellar nuclei of the mouse. Neuroscience, 161(1), 123–138.
  • Dietrichs, E., Haines, D. E., Roste, G. K., & Roste, L. S. (1994). Hypothalamocerebellar and cerebellohypothalamic projections: Circuits for regulating nonsomatic cerebellar activity? Histology and Histopathology, 9(3), 603–614.
  • Elenkov, I. J., Wilder, R. L., Chrousos, G. P., & Vizi, E. S. (2000). The sympathetic nerve—An integrative interface between two supersystems: The brain and the immune system. Pharmacological Reviews, 52(4), 595–638.
  • Ghoshal, D., Sinha, S., Sinha, A., & Bhattacharyya, P. (1998). Immunosuppressive effect of vestibulo-cerebellar lesion in rats. Neuroscience Letters, 257(2), 89–92.
  • Green-Johnson, J. M., Zalcman, S., Vriend, C. Y., Nance, D. M., & Greenberg, A. H. (1995). Suppressed T cell and macrophage function in the “reeler” (rl/rl) mutant, a murine strain with elevated cerebellar norepinephrine concentration. Brain, Behavior, and Immunity, 9(1), 47–60.
  • Haines, D. E., Dietrichs, E., Mihailoff, G. A., & McDonald, E. F. (1997). The cerebllar-hypothalamic axis: Basic circuits and clinical observations. International Review of Neurobiology, 41, 83–107.
  • Holmes, M. J., Cotter, L. A., Arendt, H. E., Cass, S. P., & Yates, B. J. (2002). Effects of lesions of the caudal cerebellar vermis on cardiovascular regulation in awake cats. Brain Research, 938(1–2), 62–72.
  • Ni, S. J., Qiu, Y. H., Lu, J. H., Cao, B. B., & Peng, Y. P. (2010). Effect of cerebellar fastigial nuclear lesions on differentiation and function of thymocytes. Journal of Neuroimmunology, 222(1-2), 40–47.
  • Paxinos, G., & Waston, C. (1998). The Rat Brain in Stereotaxic Coordinates, 4th ed. San Diego, CA: Academic Press.
  • Peng, Y. P., Qiu, Y. H., Chao, B. B., & Wang, J. J. (2005). Effect of lesions of cerebellar fastigial nuclei on lymphocyte functions of rats. Neuroscience Research, 51(3), 275–284.
  • Peng, Y. P., Qiu, Y. H., Qiu, J., & Wang, J. J. (2006). Cerebellar interposed nucleus lesions suppress lymphocyte function in rats. Brain Research Bulletin, 71(1–3), 10–17.
  • Turenius, C. I., Charles, J. R., Tsai, D. H., Ebersole, P. L., Htut, M. H., Ngo, P. T., (2009). The tuberal lateral hypothalamus is a major target for GABAA- but not GABAB-mediated control of food intake. Brain Research, 1283, 65–72.
  • Uusisaari, M., & Knöpfel, T. (2008). GABAergic synaptic communication in the GABAergic and non-GABAergic cells in the deep cerebellar nuclei. Neuroscience, 156(3), 537–549.
  • Wang, J. J., Pu, Y. M., & Wang, T. (1997). Influences of cerebellar interpositus nucleus and fastigial nucleus on the neuronal activity of lateral hypothalamic area. Science in China Series C: Life Sciences, 40(2), 176–183.
  • Wrona, D. (2006). Neural–immune interactions: An integrative view of the bidirectional relationship between the brain and immune systems. Journal of Neuroimmunology, 172(1–2), 38–58.
  • Xu, F., & Frazier, D. T. (2002). Role of the cerebellar deep nuclei in respiratory modulation. Cerebellum, 1(1), 35–40.
  • Zhu, J. N., Yung, W. H., Kwok-Chong Chow, B., Chan, Y. S., & Wang, J. J. (2006). The cerebellar-hypothalamic circuits: Potential pathways underlying cerebellar involvement in somatic-visceral integration. Brain Research Reviews, 52(1), 93–106.
  • Zhuang, J., Xu, F., & Frazier, D. T. (2008). Hyperventilation evoked by activation of the vicinity of the caudal inferior olivary nucleus depends on the fastigial nucleus in anesthetized rats. Journal of Applied Physiology, 104(5), 1351–1358.

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