Electrophysiological Properties of the Neurons Dissociated from the Nucleus Raphe Magnus in Postnatal Rats

흰쥐의 Nucleus Raphe Magnus로부터 분리된 신경세포의 전기생리학적 성질

  • Nam Sang-Chae (Department of Physiology, Chonnam University Medical School) ;
  • Lim Won-Il (Departments of Physiology & Biophysics, Seoul National University, College of Medicine) ;
  • Cho Sa-Sun (Departments of Anatomy, Seoul National University, College of Medicine) ;
  • Kim Jun (Departments of Physiology & Biophysics, Seoul National University, College of Medicine)
  • 남상채 (전남대학교 의과대학 생리학교실) ;
  • 임원일 (서울대학교 의과대학 생리학교실) ;
  • 조사선 (서울대학교 의과대학 해부학교실) ;
  • 김전 (서울대학교 의과대학 생리학교실)
  • Published : 1997.06.01

Abstract

Neurons in the nucleus raphe magnus are involved in descending modulation of nociceptive transmission. In this study, we attempted to investigate electrophysiological properties of the NRM neurons dissociated from the postnatal rat medulla. The NRM neurons in the coronal slices of and the dissociated neurons from the postnatal rat medullae were immunohistochemically identified using antibody against serotonin. Relatively small number of neurons were positively stained in both preparations. The positively stained neurons displayed large cell body with double or multiple neurites. Using whole-cell patch clamp configuration ionic currents were recorded from the dissociated NRM-like neurons selected by criteria such as size and shape of cell body and cell population. Two types, high- and low-threshold, of voltage-dependent calcium currents were recorded from the dissociated NRM-like neurons. Some neurons displayed both types of calcium currents, whereas others displayed only high-threshold calcium current. Voltage-dependent potassium currents were also recorded from the dissociated NRM neurons. Some neurons displayed both transient outward and delayed rectifier currents but others showed only delayed rectifier current. These results suggest that there are at least two types of calcium currents and two types of potassium currents in the dissociated NRM neurons.

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