A comparison of microdistributions of taurine and cysteine sulphinate decarboxylase activity with those of GABA and L-glutamate decarboxylase activity in rat spinal cord and thalamus

Abstract— Distribution profiles of taurine and activity of cysteine sulphinate decarboxylase (CSD), the enzyme catalysing the formations of hypotaurine from cysteine sulphinate and of taurine from cysteate respectively, in the rat spinal cord and thalamus were studied in comparison with those of GABA and activity of l -glutamate decarboxylase (GAD), the rate limiting enzyme for GABA formation. In the spinal cord (L₂-L₃), it was found that taurine is fairly evenly distributed, whereas the activity of CSD is higher in the dorsal half of the spinal cord than in the ventral half. The highest CSD activity was found in the dorsal part of the dorsal horn. In the anterior part (A 5.4) of the thalamus, taurine and CSD activity were also distributed evenly and no areas having high taurine content and CSD activity were detected. In contrast with the even distributions of taurine and CSD activity, both GABA and GAD activity were distributed unevenly in the same CNS areas examined: The areas having high GABA content and GAD activity in the thalamus (A 5.4) coincided with the ventrolateral part of the ventral nucleus of thalamus (VM), entopeduncular nucleus (EP) and nucleus reuniens thalami (RE), whereas those in the spinal cord were found to be in the dorsal part of the dorsal horn and surrounding parts of the central canal, respectively. Considering a probable role of GABA in mammalian central nervous system (CNS) as an inhibitory neurotransmitter, it seems unlikely that taurine acts as an inhibitory neurotransmitter at least in the rat spinal cord and thalamus.