Alucinosis peduncular en esclerosis múltiple, síntoma poco común en la expresión de enfermedad desmielinizante / Peduncular hallucinosis in multiple sclerosis, a rare symptom in demyelinating disease

Introducción: La alucinosis peduncular (AP) hace referencia a alucinaciones autodiscriminadas, cuyo origen son lesiones en el mesencéfalo y en el puente. Presentación del caso: Paciente 27 años, femenina, con alucinaciones visuales, auditivas autodiscriminadas por ella misma, sin antecedentes previos de importancia y con lesiones en resonancia magnética cerebral y cervical en el pedúnculo cerebeloso superior, tegmento pontino, y en columna cervical con bandas oligoclonales patrón 2, que cumplían criterios de Mc Donalds para esclerosis múltiple. Discusión: La alucinosis peduncular hace referencia a la presencia de alucinaciones visuales, criticadas por el paciente, con la consecuencia de lesiones de las vías inhibitorias por deaferentación y desinhibición mesencéfalotalámicas, y retinogenículo calcarina, descritas como manifestación de múltiples patologías neurológicas como trauma, afectación vascular, tumores y pocos casos de enfermedad desmielinizante, entre otras. Conclusión: La alucinosis peduncular es una forma atípica de presentación de lesiones pontomesencefálicas descritas en varias patologías; se debe tener en cuenta en la localización de la lesión neurológica; se han reportado pocos casos como síntoma de la enfermedad desmielinizante.

Introduction: Peduncular hallucinosis (PA) refers to self-discriminating hallucinations, these are caused by lesions in the midbrain and pons. Presentation of the case: 27-year-old right handed female patient with visual and auditory hallucinations self-discriminated by the patient, with no prior history of importance and with lesions in cerebral and cervical Magnetic Resonance in the superior cerebellar peduncle, pontine tegmentum, and in the cervical spine with pattern 2 oligo clonal bands, which met Mc Donald's criteria for multiple sclerosis. Discussion: Peduncular hallucinosis refers to the presence of visual hallucinations criticized by the patient, consequence of lesions in the inhibitory pathways with deafferentation and disinhibition of the midbrain-thalamic and retinogeniculus-calcarine pathways. Described as a manifestation of multiple neurological pathologies such as trauma, vascular, tumor and few cases of demyelinating among others. Conclusion: Peduncular hallucinosis is an atypical form of presentation of pontomesencephalic lesions described in several pathologies, it must be taken into account when locating the neurological lesion, few cases have been reported as symptom of the demyelinating disease.

S100 proteins and their implication in the thalamus: an integrative review / Las proteínas S100 y su implicación en el tálamo: una revisión integradora

SUMMARY: S100 proteins belong group of calcium-binding proteins and are present in physiological intracellular and extracellular regulatory activities, such as cell differentiation, and act in inflammatory and neoplastic pathological processes. Recently, its expressions in the nervous system have been extensively studied, seeking to elucidate its action at the level of the thalamus: A structure of the central nervous system that is part of important circuits, such as somatosensory, behavioral, memory and cognitive, as well as being responsible for the transmission and regulation of information to the cerebral cortex. This article is an integrative review of scientific literature, which analyzed 12 studies present in Pubmed. The analysis showed that the relationship of S100 proteins and the thalamus has been described in neoplastic processes, mental disorders, hypoxia, trauma, stress, infection, Parkinson's disease and epilepsy. In summary, it is possible to conclude that this protein family is relevant as a marker in processes of thalamic injury, requiring further studies to better understand its clinical, preclinical meanings and its prognostic value.

Las proteínas S100 pertenecen al grupo de proteínas fijadoras de calcio y están presentes en actividades reguladoras fisiológicas intracelulares y extracelulares, como la diferenciación celular, y actúan en procesos patológicos inflamatorios y neoplásicos. Recientemente, sus expresiones en el sistema nervioso han sido ampliamente estudiadas, buscando dilucidar su acción a nivel del tálamo: una estructura del sistema nervioso central que forma parte de importantes circuitos, como el somatosensorial, conductual, de memoria y cognitivo, así como además de ser responsable de la transmisión y regulación de la información a la corteza cerebral. Este artículo es una revisión integradora de la literatura científica, que analizó 12 estudios presentes en Pubmed. El análisis mostró que la relación de las proteínas S100 y el tálamo ha sido descrita en procesos neoplásicos, trastornos mentales, hipoxia, trauma, estrés, infección, enfermedad de Parkinson y epilepsia. En resumen, es posible concluir que esta familia de proteínas es relevante como marcador en procesos de lesión talámica, requiriendo más estudios para comprender mejor su significado clínico, preclínico y su valor pronóstico.

Cerebral localization of higher functions: anatomic structures before the identification of their memory function / Localização cerebral de funções superiores: estruturas anatômicas antes da identificação de suas funções de memória

The nature of memory and the search for its localization have been a subject of interest since Antiquity. After millennia of hypothetical concepts the core memory-related structures finally began to be identified through modern scientifically-based methods at the diencephalic, hippocampal, and neocortical levels. However, there was a clear temporal delay between the finding of these anatomic structures ignoring their function, and their identification related to memory function. Thus, the core structures begun to be identified with a pure anatomical view in the late Middle Ages on, while the memory function related to them was discovered much later, in the late Modern Period.

A natureza da memória e a busca de sua localização tem sido objeto de interesse desde a Antiguidade. Após milênios de conceitos hipotéticos as estruturas centrais relacionadas com a memória finalmente começaram a ser identificadas através de métodos modernos com base científica, nos níveis diencefálico, hipocampal e neocortical. Entretanto, houve um claro retardo temporal entre o achado dessas estruturas anatômicas ignorando sua função e sua identificação relacionada à função da memória. Assim, as estruturas centrais começaram a ser identificadas com uma visão puramente anatômica da Idade Média tardia em diante, enquanto a função da memória relacionada com as mesmas foi descoberta muito mais tarde, no Período Moderno tardio.

Cerebral localization of higher functions: Memory-related anatomic structures / Localização cerebral de funções superiores: estruturas anatômicas relacionadas com a memória. achados iniciais

ABSTRACT The nature of memory and the search for its localization have been a subject of interest since Antiquity. After millennia of theoretical concepts, shifting from the heart to the brain, then from the ventricles to solid parts, the core memory-related structures finally began to be identified through modern scientifically-based methods at the diencephalic and cortical (hippocampal and neocortical) levels, mostly in the late Modern period, culminating in the current state of knowledge on the subject.

RESUMO A natureza da memória e a busca de sua localização tem sido objeto de interesse desde a Antiguidade. Após milênios de conceitos teóricos, mudando do coração para o cérebro e daí dos ventrículos para as partes sólidas, as estruturas centrais relacionadas com a memória finalmente começaram a ser identificadas através de métodos modernos com base científica, nos níveis diencefálico e cortical (hipocampal e neocortical), principalmente no período Moderno tardio, aproximando-se do estado atual do conhecimento sobre o tema.

Comparative morphology and histology of the brain in Chinese toad ( Bufo gargarizans ) and chinese fire-billed newt ( Cynops orientalis ) / Morfología e histología comparada del cerebro en el sapo chino ( Bufo gargarizans ) y el tritón vientre de fuego chino ( Cynops orientalis )

The morphological and histological structure of the brains of Bufo gargarizans and Cynops orientalis were observed by anatomy and light microscopy. The results show that the brains of Bufo gargarizans and Cynops orientalis are divided into 5 parts which include the telencephalon, diencephalon, mesencephalon, cerebellum and medulla oblongata. The telencephalon consists of the olfactory bulb and the cerebral hemisphere. The olfactory bulb is developed that has two pairs of olfactory nerve. Bufo gargarizan has a symmetrical oval hemisphere optic lobes; Cynops orientalis only has a spherical optic lobe. The cerebellum is situated behind the optic lobe and closely connected with the myelencephalon. In this paper, the morphological and histological differences between the two species are discussed. The proportion of cerebral hemisphere is gradually increasing, which correlated with a progressive increase in the number of neuronal cell classes, and reflected in behavior complexity.

La estructura morfológica e histológica de los cerebros de Bufo gargarizans y Cynops orientalis se observó mediante anatomía y microscopía óptica. Los resultados muestran que los cerebros de Bufo gargarizans y Cynops orientalis se dividen en 5 partes, que incluyen el telencéfalo, diencéfalo, mesencéfalo, cerebelo y mielencéfalo. El telencéfalo consiste en bulbo olfatorio y hemisferio cerebral. El bulbo olfatorio tiene dos pares de nervios olfatorios. Los lóbulos ópticos de Bufo gargarizans son ovalados y simétricos en ambos hemisferios cerebrales; Cynops orientalis tiene solo un lóbulo óptico esférico. El cerebelo está situado detrás del lóbulo óptico y está estrechamente conectado con el mielencéfalo. En este trabajo, se discuten las diferencias morfológicas e histológicas entre las dos especies. El tamaño del hemisferio cerebral aumenta gradualmente, lo que se correlaciona con un aumento progresivo de células neuronales en los núcleos, reflejándose en la complejidad del comportamiento.

Anti-Ma2-Associated Encephalitis Presenting as Hypersomnia

Anti-Ma2-associated encephalitis is one of the paraneoplastic neurological syndromes. It has been shown to be associated with various neoplasms, mainly testicular, lung, and breast cancers. Most patients with anti-Ma2-associated encephalitis present limbic-diencephalic-brainstem dysfunctions such as seizure, mood disorder, excessive daytime sleepiness, and ophthalmoparesis. Some patients develop symptoms indicating the multifocal involvement of the limbic system, diencephalon, or brainstem. However, there are few case studies of anti-Ma2-associated encephalitis presenting as isolated hypersomnia. We report a case of anti-Ma2-associated encephalitis presenting as hypersomnia.

Functional Neuroanatomy of Brain Stem

The brain stem consists of medulla oblongta, pons and midbrain. It is sited in posterior cranial fossa. It contains numerous intrinsic neuron cell bodies and their processes, some of which are the brain stem homologues of spinal neuronal groups. These include the sites of termination and cells of origin of axons that enter or leave the brain stem through the cranial nerves. Cranial nerves provide sensory, motor and autonomic innervations of structures that are mostly in the head and neck. The reticular formation is an extensive network of neurons that extends throughout the length of brain stem and is continuous rostrally to diencephalon and caudally to its spinal counterpart. Clinically, damage to the brain stem is often devastating and life threatening. This is because it is a structurally and functionally compact region. Therefore, it is important to build basic knowledge about neuroanatomy of brain stem.

Intermediate pilomyxoid astrocytoma and diencephalic syndrome: imaging findings / Astrocitoma pilomixoide intermediário e síndrome diencefálica: aspectos de imagem

Pilomyxoid astrocytoma, an entity described as a histological variant of pilocytic astrocytoma, is a rare primary tumor of the central nervous system. It is usually located in the hypothalamic-chiasmatic area, affecting children with a mean age of 10 months. It has a high rate of recurrence and cerebrospinal fluid dissemination, which may be present throughout the neuroaxis. Due to its topography, it may present developmental delay in childhood and diencephalic syndrome, characterized by extreme weight loss, lack of fat accumulation, hyperactivity, euphoria and alertness. Magnetic resonance imaging has an important role in its diagnosis, staging and follow-up of pilomyxoid astrocytoma. However, for a definitive diagnosis, anatomopathology is particularly important to differentiate it from pilocytic astrocytoma. Some cases, as in this present one, have simultaneous histological features of pilocytic and pilomyxoid astrocytomas, constituting a group called intermediate pilomyxoid astrocytoma. Surgery is the best treatment option and it usually requires adjuvant therapy.

O astrocitoma pilomixoide, entidade descrita como variante histológica do astrocitoma pilocítico, é um raro tumor primário do sistema nervoso central. Geralmente, localiza-se em topografia hipotálamoquiasmática, acomentendo crianças com idade média de 10 meses. Apresenta alta taxa de recorrência e disseminação liquórica, podendo se apresentar ao longo de todo o neuroeixo. Dada sua topografia, pode se apresentar com atraso do desenvolvimento na infância e síndrome diencefálica, caracterizada por emagrecimento extremo, ausência de acúmulo de tecido adiposo, hiperatividade motora, euforia e estado de alerta. A ressonância magnética possui um papel importante para o diagnóstico, estadiamento e seguimento do astrocitoma pilomixoide. No entanto, para o diagnóstico definitivo, o estudo anatomopatológico é fundamental, principalmente na diferenciação com o astrocitoma pilocítico. Além disso, em alguns casos, como o aqui apresentado, evidencia-se a apresentação simultânea de características histológicas do astrocitoma pilomixoide e pilocítico, constituindo um grupo denominado astrocitoma pilomixoide intermediário. A cirurgia é a melhor opção de tratamento e geralmente há necessidade de tratamento adjuvante.

Inhibition of Oxidative Tissue Damage and Mitochondrial Dysfunction by Glycyrrhizin in the 1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine Mouse Model of Parkinson's Disease

BACKGROUND: 1-Methyl-4-phenyl-1,2,3,6-tetrahydropyridine (MPTP) produces an irreversible and severe parkinsonian-like syndrome. A licorice compound glycyrrhizin exerts a cytoprotective or anti-oxidant effect in various disease conditions, but its effect against the MPTP-induced brain tissue damage remains uncertain. The present study elucidates the protective effects of glycyrrhizin against brain tissue damage in the MPTP mouse model of Parkinson's disease. METHODS: We measured the activities of antioxidant enzymes and formation of tissue peroxidation products in the brains of MPTP-treated mice. We also performed an in vitro assay to examine the effects of 1-methyl-4-phenylpyridinium (MPP+) on the mitochondrial respiratory electron flow, membrane potential and cytochrome c release and measured the scavenging action of glycyrrhizin against reactive oxygen species. RESULTS: The MPTP treatment increased activities of total superoxide dismutase, catalase, and glutathione peroxidase and levels of malondialdehyde and carbonyls in the basal ganglia, diencephalon plus midbrain compared to the control mouse brain. Co-administration of glycyrrhizin (16.8 mg/kg = 20 micrometer) attenuated the MPTP effect on the enzyme activities and formation of tissue peroxidation products. Glycyrrhizin attenuated the 500 micrometer MPP+ -induced inhibition of electron flow, changes in the membrane potential and cytochrome c release in isolated brain mitochondria. Glycyrrhizin (1-50 micrometer) showed a scavenging action against superoxide radicals, hydrogen peroxide and hydroxyl radicals. CONCLUSIONS: Glycyrrhizin may prevent the toxicity of MPTP against brain tissue by suppressing mitochondrial damage and oxidative tissue damage. Glycyrrhizin seems to attenuate oxidative brain tissue damage occurring in Parkinson's disease through antioxidant action and prevention of mitochondrial dysfunction.

Over-expression of EphrinA2 in the Anterior Region of the Developing Mouse Midbrain and Diencephalon / 대한해부학회지

The Eph family is thought to exert its function through the complementary expression of receptors and ligands. The dorsal mesencephalon appears to be segmented into two broad regions demarcated by the mutually exclusive expression of EphA receptors and ephrinA ligands. In this study, we analyzed transgenic embryos expressing ephrinA2 in the anterior region of the developing midbrain where the EphA8 receptor is expressed. First, 1% of transgenic embryos showed cephalic neural tube closure defects. Second, it was confirmed that mis-expression of ephrin-A2 in the anterior mesencephalon induced an increase in the EphA8 tyrosine kinase activity. Accordingly, an increased MAPK activity was also detected in the anterior mesencephalon of E14.5 transgenic embryo. Third, cell adhesion assay revealed that mis-expression of ephrinA2 promoted cell attachment to fibronectin. Taken together, these findings suggest that co-expression of EphA receptors and ephrinA ligands significantly alter cell behaviors including cell adhesion.

Apoptotic Neuronal Death in the Mouse Brain Induced by Experimental Japanese Encephalitis Virus Infection / 대한해부학회지

Japanese encephalitis virus (JEV)may cause acute encephalitis in humans and induce severe cytopathic effects in various types of cultured cells. To investigate whether JEV infection induces apoptosis, we examined DNA fragmentation and apoptosis in the specific region of the JEV infected mouse brain by DNA oligonucleosomal laddering and in situ terminal deoxynucleotidyl transferase-mediated dUTP nick end-labeling (TUNEL)technique and immunohistochemical study. JEV infections in the mouse brain were detected in the telencephalon, the diencephalons, and the brain stem, but not in the cerebellum and the hippocampus. Fragmentation of cellular DNA into oligonucleosome-length ladders was only observed in tissue samples prepared from the cerebral cortex. In addition, the large number of TUNEL-positive cells was observed in the cerebral cortex. Double-labeling experiment with TUNEL staining and immunostaining for the JEV showed that TUNEL-positive neurons containing JEV immunoreactivity. These results suggest that JEV infection may evoke apoptotic neuronal death in the mouse brain, which plays an important role in the pathogenesis of Japanese encephalitis.

Diencephalic syndrome: a rare and easily overlooked cause of failure to thrive.

BACKGROUND: Diencephalic syndrome (DS) is an uncommon cause of failure to thrive in infants and young children. The major manifestations are emaciation, hyperkinesia, and euphoria. Most patients have a tumor in the hypothalamic-optic chiasma region. CASE REPORT: Two children, aged 14 months and 5 years 9 months, who presented with classic features of DS at an onset of 2 and 3 months respectively, were reported. Neurologic examination was normal, except for papilledema in the second child. Imaging of the brain showed a suprasellar mass, identified as pilocytic astrocytoma in both cases. The first case was lost to follow up. The latter underwent partial resection of the tumor and received radiotherapy postoperatively. He gradually gained in weight and height. CONCLUSION: DS should be a differential diagnosis in any children with emaciation despite adequate caloric intake and an inappropriately euphoric mood. Awareness of this syndrome, careful history taking, general detail as well as neurological examination including fundoscopic examination and appropriated investigations are crucial.

Cerebral Activation Associated with Visually Evoked Sexual Arousal in the Limbic System: Functional MR Imaging

PURPOSE: To identify the brain centers associated with visually evoked sexual arousal in the human brain, and to investigate the neural mechanism for sexual arousal using functional MRI (fMRI). MATERIALS AND METHODS: A total of 20 sexually potent volunteers consisting of 10 males (mean age: 24) and 10 females (mean age: 23) underwent fMRI on a 1.5 T MR scanner (GE Signa Horizon). The fMRI data were obtained from 7 slices (10 mm slice thickness) parallel to the AC-PC (anterior commissure and posterior commissure) line, giving a total of 511 MR images. The sexual stimulation consisted of a 1-minute rest with black screen, followed by a 4-minute stimulation by an erotic video film, and concluded with a 2-minute rest. The brain activation maps and their quantification were analyzed by the statistical parametric mapping (SPM 99) program. RESULTS: The brain activation regions associated with visual sexual arousal in the limbic system are the posterior cingulate gyrus, parahippocampal gyrus, hypothalamus, medial cingulate gyrus, thalamus, amygdala, anterior cingulate gyrus, insula, hippocampus, caudate nucleus, globus pallidus and putamen. Especially, the parahippocampal gyrus, cingulate gyrus, thalamus and hypothalamus were highly activated in comparison with other areas. The overall activities of the limbic lobe, diencephalon, and basal ganglia were 11.8%, 10.5%, and 3.4%, respectively. In the correlation test between brain activity and sexual arousal, the hypothalamus and thalamus showed positive correlation, but the other brain areas showed no correlation. CONCLUSION: The fMRI is useful to quantitatively evaluate the cerebral activation associated with visually evoked, sexual arousal in the human brain. This result may be helpful by providing clinically valuable information on sexual disorder in humans as well as by increasing the understanding of the neuroanatomical correlates of sexual arousal.

Distribution of trkA in cerebral cortex and diencephalon of the mongolian gerbil after birth

TrkA is essential components of the high-affinity NGF receptor necessary to mediate biological effects of the neurotrophins NGF. Here we report on the expression of trkA in the cerebral cortex and diencephalon of mongolian gerbils during postnatal development. The expression of trkA was identified by immunohistochemical method. In parietal cortex and piriform cortex, higher levels of trkA-IR (immunoreactivity) were detected at 3 days postnatal (P3) and at P9. Although trkA was not expressed till P3 in the parietal cortex, it was detectable at birth in the piriform cortex. Several regions, such as Layers I, IV & VI, did not show much expression. Layer I showed especially weak labeling. In the hippocampus, thalamus, and hypothalamus, higher levels of trkA-IR were detected at P6 and P12 than earlier days. But trkA was not expressed at birth in the hippocampus, at P3 in the reticular thalamic nucleus (Rt), or neonatally in the dorsomedial hypothalamic nucleus (DM). This data shows that expression of trkA is developmentally regulated and suggests that high affinity neurotrophin-receptors mediate a transient response to neurotrophines in the cerebral cortex and diencephalon during mongolian gerbil brain ontogeny.

Cérebro: um imbróglio terminológico / Cerebrum: an “imbroglio” in terminology

É comum a neurologistas e neurocirurgiões consideraremerroneamente o cérebro como sendo formado pelo diencéfaloe o telencéfalo. Tal erro está consignado em vários livrostextosde Neuroanatomia utilizados nas universidadesbrasileiras. O correto é incluir entre os componentes docérebro apenas as estruturas telencefálicas, como estabelecidona Terminologia Anatômica Internacional e emrenomados dicionários médicos.

Immunohistochemical Study on Platelet-Derived Growth Factor alpha-Receptor (PDGF -alpha R) in Developing Canine CNS / 대한해부학회지

Platelet-derived growth factor (PDGF) was initially described for its mitogenic activity on smooth muscle cells, fibroblast, and glial cells. The biological activities of PDGF include stimulation of mitogenesis, differentiation, wound healing, inflammation, and tumor formation. The localization of platelet-derived growth factor-alpha Receptor (PDGF-alpha R) in central nervous system was commonly restricted to oligodendrocyte progenitors during late embryonic and postnatal development. However, several studies recently demonstrated that postnatal neurons could also synthesize PDGF-alpha R in rodents. In the present study, to analyze the distributional pattern of PDGF-alpha R during postnatal development of the canine CNS, we used immunohistochemical method on sections of canine brain tissue. We found that neurons of various CNS regions, including cerebral cortex, striatum, diencephalon, nuclei of brain stem, cerebellum, spinal cord, exhibited the immunoreactivity to PDGF-alpha R as early as postnatal day 0. Generally PDGF-alpha R immunoreactivity was well localized in the dendrites and axons of neuron during the postnatal day 14 and postnatal day 28, and then showed diminished pattern. But neuronal immunoreactivity to PDGF-alpha R were maintained postnatal 6 month. These results suggest that the localization of PDGF-alpha R in postnatal developing neurons supports the several roles of PDGF for neurons including maturation and survival.

An Immunohistochemical Tracing on the Central Neural Pathways An Immunohistochemical Tracing on the Central Neural Pathways / 대한이비인후과학회지

BACKGROUND AND OBJECTIVES: The transsynaptic transfer of neurotropic viruses is an effective tool for tracing chains of connected neurons, because replication of virus in the recipient neurons after the transfer amplifies the "tracer signal". The aim of this study is to identify the central neural pathways projecting to the facial nerve using the Bartha strain of the Pseudorabies virus (PRV-Ba )as a transsynaptic tracer. MATERIALS AND METHODS: PRV-Ba was injected into the facial nerve in the stylomastoid foramen of a rat, and was localized in the rat brain with light microscopic immunohistochemistry using primary antibodies against the PRV-Ba. Sequential tracing was carried out on the retrogradely labeled neurons were done. RESULTS: The shapes of upper motor neurons of facial nerve were mostly ovoid or polygonal. The positive immunoreactive cells observed in the brainstem nuclei included raphe obscurus nucleus, facial nucleus, parvocellular reticular nucleus, spinal trigeminal nucleus, ventral parabrachial nucleus, central gray, and dorsal raphe nucleus. Other positive cells stained in the diencephalon were found in periventricular hypothalamic nucleus, dorsal hypothalamic area, orbital gyri, and infralimbic cortex in the frontal lobe. CONCLUSIONS: These results show the central neural pathways of facial nerve using PRV-Ba.

Histochemical Study on the Expression of Heat Shock Protein 70 mRNA in Developing Mouse Brain / 대한해부학회지

Using in situ hybridization technique with digoxigenin-labelled riboprobe, study on the expression of hsp 70 mRNA in the developing mouse brain was performed. The results obtained are as follows; 1. In embryonic day 16 group, cells with strong reactivity to hsp70 mRNA were found in spinal cord. In neuroepithelial layer lining fourth ventricle and external granular layer of cerebellum, moderate reactivity was observed. But the reactivity was weak in the forebrain including cerebral cortex, diencephalon and olfactory bulb. 2. In embryonic day 18 group, the regional pattern of hsp70 mRNA expression was similar to that of embryonic day 16 group. In medulla oblongata, however, stronger reactivity was found in the embryonic day 18 group. 3. In postnatal day 0 mice group, cells with moderate or strong reactivity to hsp70 mRNA were found in the overall area of central nervous system, Especially, cells with moderate reactivity were found in the dentate gyrus of hippocampus, and the supragranular cortical plate and subplate neocortex. 4. In postnatal day 2 mice group, cells with moderate or strong reactivity to hsp70 mRNA were found in the same pattern as in postnatal day 0 group. Further differentiation of cerebral cortex and cerebellum was found. 5. Strong expression of hsp70 mRNA was found in the areas with high rate of cell division. In general, the area of expression moved to more rostral area in central nervous system as development proceeds. Above results suggest that hsp70 play an important role in the development and differentiation of central nervous system.