Gamma aminobutyric acid uptake, release, and effect on36Cl?-influx in bovine pineal gland

Abstract

Two apparent affinities for Na⁺ -dependent,³H-GABA uptake were found in bovine pineal fragments in vitro i.e., a high affinity uptake (Km=37±5 μM) and a low affinity uptake (Km=435±50 uM). GABA or the neuronal and glial GABA uptake inhibitor nipecotic acid was significantly more effective than the inhibitor of the GABA glial uptake β-alanine to decrease pineal³H-GABA uptake. High K⁺ concentration released³H-GABA in superfused bovine pineals, no differences in³H-GABA release among fragments taken from medial, proximal or distal pineal regions being apparent. Superfusion of pineal fragments in the absence of Ca²⁺ but in the presence of EGTA, Mg²⁺ or verapamil decreased significantly³H-GABA release induced by K⁺. In every case a Ca²⁺ -independent pineal GABA release was found. Preincubation with GABA or nipecotic acid, but not with β-alanine, blunted subsequent³H-GABA release. GABA increased³⁶Cr⁻-influx in pineal homogenates, an effect blocked by picrotoxin. Incubation of pineal homogenates in the presence of aminooxyacetic acid decreased V_max of glutamic acid decarboxylase, without modifying its Km. These results are compatible with a transmitter or modulator role of GABA in bovine pineal gland.