Abstract

Thiamine deficiency is generally accepted as the primary etiologic factor for the Wernicke encephalopathy in human and for the similar neurologic symptoms in thiamine depleted experimental animals. Although pyrithiariiineinduced thiamine deficiency has been known to produce histopathologic lesions within many nuclei of the rat brain, the pathogenic mechanisms involved have not been clarified. Furthermore, the effect of thiamine deprivation on the nature and anatomic distribution of neurotransmitter changes has not been fully explored. The present studies were undertaken to investigate - morphological changes of the basal nucleus of Meynert and vestibular nucleus in thiamine deficient rats induced by pyrithiamine and thiamine deficient diet. For this purpose immunohistochemical stain for choline acetyltransferase was performed. Fifty healthy Sprague-Dawley strain rats weighing about 150 gm, were divided into 10 control group and 40 thiamine deficient group. Animals in thiamine deficient group were treated with daily intraperitoneal injection of pyrithiamine( 50 ug/lOOgm of BW/dbLy, Sigma Co.) for 9 days and were continuously given thiamine deficient diet until to be sacrificed. Thiamine deficient rats were subdivided into 3 groups according to different stages of neurologic manifestations ; the early group, the beginning stage of anorexia, hypothermia and weight loss without neurologic manifestations(sacrificed day ; 9th-13th day) the intermediate group, the developing stage of gait ataxia and hypotonia(sacrificed day ; 17th-19th day) the late group, the established stage of tremor, convulsion and back arching(sacrificed day ; 23th-26th day). All animals were anesthetized with sodium pentobarbital(40mg/kg, I.p.) and perfused in vivo through the ascending aorta with 10% neutral buffered formalin or 4% paraformaldehyde-0. 1% glutaraldehyde in PBS, and then brains were removed. Luxol-fast blue and cresyl violet stain was performed according to routine paraffin method for observing morphologic changes in basal nucleus of Meynert and vestibular nucleus. In addition immunohistochemical stains in the same regions were performed by free floating method in cell culture plate. All preparations were observed with a light microscope. The results obtained were as follows ; 1. Sequential changes of the neurologic manifestations in thiamine deficient rats were weight loss, hypothermia and ariorexia on the 9th-10th day, followed by gait ataxia and hypotonia on the 13th-15th day, and then tremor, convulsion and back arching on the 22th-26th day. 2. Glial proliferation was noted in the basal nucleus of the early group but not in the vestibular nucleus. Atrophy and pyknosis of neurons in basal nucleus and vestibular nucleus were shown in the intermediate group and marke neuronal loss and edematous tissue necrosis were noted in the late group. 3. Choline acetyltransferase immurforeactivity in the basal nucleus and vestibular nucleus was markedly positive in the early group as well as control group, moderately positive in the intermediate groupand minimally positive in the late group. It is suggested that the extent of neuronal damage in thiamine deficient rats is proportional to the duration of thiamine depletion. And the data presented here may account for: the regional susceptability and reversibility of certain symptoms in thiamine deficient rats.