Immunohistochemical demonstration of serotonin nerve fibers in the olfactory bulb of the rat,cat and monkey

Summary The distribution of serotonin (5-HT) positive fibers in the olfactory bulb of the rat, cat and monkey was studied using the peroxidase-anti-peroxidase (PAP) immunohistochemical method and highly specific antibodies to 5-HT. In general, 5-HT fibers were present throughout all layers in the olfactory bulb of these species except for the olfactory nerve layer and different as well as restricted laminar patterns of 5-HT distribution were observed. There were also species-related differences in the pattern of 5-HT distribution, in each layer. The most notable species difference was apparent in the glomerular layer of the main olfactory bulb. In case of the rat and cat, a very dense plexus of 5-HT fibers was observed to be diffuse in the glomerulus, while in the monkey, the distribution of 5-HT fibers was scanty and partial, as was seen in the accessory olfactory bulb of the rat.This work was supported by grant (No. 56440022) from the Ministry of Education, Science and Culture, Japan     

Distribution and morphology of ghrelin-immunopositive cells in the cerebellum of the African ostrich

Ghrelin, the endogenous ligand for the growth hormone secretagogue receptor, has been found in the cerebellum of many vertebrates and in the gastrointestinal tract of African ostrich chicks, but little is known about its distribution in the cerebellum of the African ostrich. In the present study, the distribution and morphological characteristics of ghrelin-producing cells in the cerebellum of the African ostrich were investigated using immunohistochemistry. The results indicate that the cerebellum is divided into two sections: the outer cerebellar cortex and the inner medulla of cerebellum. The cerebellar cortex comprises a molecular layer, a Purkinje cell layer and a granular layer; ghrelin-immunopositive (ghrelin-ip) cells were localized throughout the entire cerebellum, but sparsely in the medulla. The greatest number of ghrelin-ip cells was found in the stratum granulosum, and the density decreased gradually from the molecular layer to the Purkinje cell layer in the cerebellar cortex. The ghrelin-ip cells were fusiform or irregular polygons and their cytoplasm was stained intensely. These results clearly demonstrate the presence of ghrelin-ip cells in the cerebellum of the African ostrich. It is speculated that ghrelin may have a physiological function in the cerebellum.     

Influence of experimentally induced agranularity on the synaptogenesis of serotonin nerve terminals in rat cerebellar cortex.

The serotonin (5-HT) innervation of the posterior vermis was studied by high resolution radioautography in both normal and X-ray-induced agranular rat cerebella, following 3 h topical superfusion with 10(-4) M 3H-5-HT. In the normal cerebellar cortex, 5-HT axonal varicosities are scarce and only rarely exhibit the membrane differentiations characterizing synaptic contacts. In the agranular cerebellum, 5-HT terminals appear to have a much higher density than in normal controls, although their absolute number may not be significantly different when the important reduction in volume of this experimental cerebellum is taken into account. These terminals frequently show typical synaptic contracts. Most of them are established on the branchlet spines of Purkinje cell dendrites, but some are also observed on the shafts of Golgi cell dendrites. The 5-HT innervation of the cerebellar cortex thus undergoes important changes in the absence of granule cells. It is suggested that these modifications may be part of the general reorganization process of the cerebellar circuitry consequent on the early destruction of the external granular layer. This new example of synaptic remodelling could imply that the formation of cerebellar connectivity is modulated, to a certain extent, by the local cellular environment.     

Expression of FSH and its co-localization with FSH receptor and GnRH receptor in rat cerebellar cortex

The expression of follicle-stimulating hormone (FSH) and its receptor in extrapituitary and non-HPG axis tissues has been demonstrated and their non-reproductive functions in these tissues have been found. However, there have been no reports concerning the expression and function of FSH and its receptor in the cerebellum. In our study, immunofluorescence staining and in situ hybridization were used to detect the expression of FSH, double-labeled immunofluorescence staining was used to detect co-localization of FSH and its receptor and co-localization of FSH and gonadotropin-releasing hormone (GnRH) receptor in the rat cerebellar cortex. Results showed that some cells of the Purkinje cell layer, granular layer, and molecular layer of the cerebellar cortex showed both FSH immunoreactivity and FSH mRNA positive signals; not only for FSH and FSH receptor, but also for FSH and GnRH receptor co-localized in some cells throughout the Purkinje cell layer, granular layer, and molecular layer of the cerebellar cortex. These suggested that rat cerebellum could express FSH; cerebellum is a target tissue of FSH; FSH may exert certain functions through FSH receptor in a paracrine or autocrine manner; GnRH may regulate FSH positive cells through GnRH receptor in the cerebellum. Our study provides morphological evidence for further functional research on FSH and related hormones in the cerebellum.     

Transient accumulations of glycosaminoglycans in rat and chicken cerebellar cortex during development

Modifications of glycosaminoglycans at neuropile of rat and chicken cerebellum during development were histochemically studied. The application of Alcian Blue staining techniques and enzymatic degradations permitted to reveal in both species that in earlier stages of cerebellar development hyaluronic acid is present throughout neuropile of entire cerebellum but it accumulated preferentially at the medullary region and around precursory Purkinje cells where it showed a mucoid-like appearance. This substance was related with cell migration and aligning processes. At the middle of cerebellar development, around 2nd postnatal week in rat and 12-16 embryonary days in chick, a new polyanionic transient accumulation, presumably chondroitinsulphate, became present at the medullary region following the longitudinal axis of folium and limiting the forming granular layer, being this substance mainly related with polarity processes by controlling or guiding the growing cones of afferent fibers, which enter massively to cerebellar cortex. It disappeared as myelination progressed. Also from the middle stage of development onward, beside glycosaminoglycans, other polyanionic substances were present at the molecular and granular layer neuropile and at the cytoplasm of some nerve cells. These macromolecules were rather related with nerve cell differentiation and maturation.     

THE DEVELOPMENT OF D-AMINO ACID OXIDASE IN RAT CEREBELLUM

D-Amino acid oxidase (D-amino acid: O₂ oxidoreductase (deaminating), EC 1.4.3.3; D-AAO) activity is biochemically undetected in rat brain stem, cerebellum and forebrain until 14 days after birth. Adult levels are attained by day 30 in the brain stem, and by day 36 in the cerebellum. At adulthood, forebrain D-AAO activity per g wet weight of tissue is less than 2% that of the cerebellum. In contrast to the pattern in the CNS, substantial D-AAO activity is present in both liver and kidney 2 days before birth and adult levels are approached within 2 weeks of birth. Nonetheless, D-AAO activities in rat liver, kidney, brain stem and cerebellum are likely to be due to a single enzyme which has properties very similar to the purified hog D-AAO. The late ontogenesis of D-AAO activity in cerebellum and brain stem relative to that in liver and kidney parallels reported phylogenetic data. Histochemical staining for D-AAO in rat cerebellar cortex is absent until 15 days after birth when activity is first observed in some cells of the external germinal zone and adjacent molecular layer. These cells appear to migrate to a final destination around the Purkinje cell soma and leave processes at the pial surface. By 21 days of age an adult pattern of staining is manifest throughout the cerebellum but it is of weak intensity. The adult pattern includes some staining in the granular layer which seems to be associated with mossy fibers and certain cerebellar glomeruli, and strong staining at the pial surface, in the molecular layer, and in cells surrounding, but not within, the Purkinje cell soma. The data suggest that the biochemical appearance of D-AAO in developing cerebellum derives from two sources: one associated with differentiation of one of the last cell types to form from the external germinal zone, and the other with maturation of mossy fibers and their synapses (cerebellar glomeruli).     

Developmental Expression and Functional Characterization of the 4C5 Antigen in the Postnatal Cerebellar Cortex

Abstract: The monoclonal antibody 4C5 recognizes a neuron-specific surface antigen (4C5 antigen) in the CNS and PNS of the rat. In the present study we investigated the expression of 4C5 antigen in the developing cerebellum of the rat and the functional role of this molecule during cerebellar morphogenesis. Immunoblotting and immunohistochemistry in sections of cerebellar cortex revealed an age-dependent decrease in the expression of the 4C5 antigen. In cerebellar primary cell cultures, 4C5 immunoreactivity was detected both on granule and on Purkinje neurons. Granule cell migration was inhibited in cerebellar explants derived from 8-day-old rats and cultured for 2 days in the presence of antibodies against the 4C5 antigen. Electron microscope immunocytochemistry revealed that in 8-day-old rat cerebellum, 4C5 immunoreactivity was localized on the cell bodies of granule neurons in the external and internal granular layers and on parallel fibers in the developing molecular layer as well as at contact sites between these cellular elements. It was not detected on Bergmann glia. These results suggest strongly that the 4C5 antigen is involved in granule cell migration during cerebellar development, possibly via neuron-neuron interactions.     

Distribution of mGluR1α and SMI 311 immunoreactive Lugaro cells in the kitten cerebellum

The Lugaro cell is a feedback interneuron of the cerebellar cortex, recognizable by its characteristic morphology. Postnatal neuronal migration to the cortex has been described for several cerebellar interneurons. Since in our previous studies we observed Lugaro-like cells (LCs) in the white matter (WM) and internal granular layer (IGL) of the cerebellum of young cats, we assumed that a proportion of these cells migrate also postnatally to their destination. In the present study using and immunostaining for the metabotropic glutamate receptor mGluR1α and neurofilament protein SMI 311 the number and spatial distribution of LCs at different postnatal days were investigated. We found that the number and distribution of both mGluR1a-immunoreactive (ir) and of SMI 311-ir LCs changed with age in the developing cerebellar cortex of kittens: developing LCs express mGluR1α already in the newborn, while expression of SMI 311-ir in LCs appears only about a week later. At postnatal day 1 (P1) relatively few mGluR1-ir LCs were detected in the WM and at the border of WM and IGL. Later, their number increased sharply until P15 (6–7 fold) and decreased continuously between P15 and P135. SMI 311-ir LCs were not present at P1 and even at P8 only a few were observed in the WM or in infraganglionic positions. Their number increased gradually (12–14 fold) until adulthood when their number was stabilized at 8.000–10.000/cerebellum. At the same time the number of probably ectopic SMI 311-ir LCs decreased with age: at P22 about one third of them was found in “ectopic” position, whereas in the adult cat only about 10–12% of LCs's was either in the WM or scattered in the whole depth of the granular layer. These results suggest that: (1) most LCs appear in the cerebellar cortex postnatally; and (2) postnatal migration and incorporation of LCs to the cortex is a much longer process than previously expected, occurring even after the cytoarchitectonic built-up (about P65–P70 in cat) of the cerebellum.     

Immunofluorescence and Histochemical Methods for Neural M1 Pyruvate Kinase Localization

Abstract: The distribution of pyruvate kinase (ATP pyruvate phosphotransferase, EC 2.7.1.40) in the nervous system has been studied by both immunofluorescence and a histochemical procedure using nitro blue tetrazolium. The localization in various parts of rat central nervous system in situ , cerebellar and cerebral cortex, was compared to that found in vitro in cultures of cerebellum, spinal ganglia, cerebral astrocytes, and skin fibroblasts. (1) Pyruvate kinase was found predominantly in the cytoplasm of neuronal cell bodies. (2) Large neurons were better visualized than small ones. (3) No glial localization was clearly demonstrated in situ , although this does not rule out the presence of some M₁ pyruvate kinase. (4) Regions expected to be rich in nerve terminals, such as the cerebellar glomeruli or the cerebellar molecular layer, showed intense staining even when the cell bodies themselves were negative. This was expected, owing to the previous demonstration of the presence of M₁ pyruvate kinase in nerve ending by subcellular fractionation methods. (5) The localization was similar in situ and in tissue culture, except that nerve processes were better seen in the latter and astrocytes were sometimes stained in vitro. (6) Variation in intensity of staining was observed in similar cell types in the same section or in the same culture. This could represent different metabolic or functional or maturational states.     

Distributional pattern of serotonin-immunoreactive nerve fibers in the lateral geniculate nucleus of the rat,cat and monkey (Macaca fuscata)

Summary The distribution of serotonin-containing nerve fibers in the lateral geniculate nucleus (LGN) of the rat, cat, and monkey (Macaca fuscata) was studied by use of the peroxidase-antiperoxidase method and an antiserum against serotonin. In all three species, the pattern of fibers was denser in the ventral portion of the LGN (LGNv) than in the dorsal nuclear portion (LGNd). In the LGNd of rat, serotonin-immunoreactive fibers were evenly distributed in the form of a dense network, but in cat and monkey there were marked regional differences. Serotonin-immunoreactive elements were most numerous in the C complex and medial interlaminal nucleus of cat, and in the S layer and interlaminar zones of Macaca fuscata.Supported by a grant from the Ministry of Education, Science, and Culture of Japan (No. 57214028)     

LOCALIZATION OF THE THY-1 ANTIGEN IN THE CEREBELLAR CORTEX OF RAT BRAIN BY IMMUNOFLUORESCENCE DURING POSTNATAL DEVELOPMENT

Abstract— At birth in the rat brain the Thy-1 antigen was present at 10% of the adult level and increased rapidly to reach near adult levels after 3 weeks. Localization studies by immunofluorescence on sections of rat cerebellar cortex during this period showed that at day 5 there was weak fluorescence associated mainly with the molecular layer and some fibre-like structures in the centre of the folium; no fluorescence was found around the cells of external granular layer. From 5 to 16 days there was a rapid increase in Thy-1 immunofluorescence with noticeably higher levels associated with the white matter than the molecular layer. However, by 21 days the reverse was found' with lower levels in white matter than in the molecular layer with a similar distribution to that observed previously in adult rat cerebellum. Small rings and patches of fluorescence were observed in the molecular and granular layers. The results indicated that Thy-1 was present on axons, mature neurons and their processes. In addition, Thy-1 immunofluorescence was found in the pia-arachnoid until around day 16.     

Developmental and Regional Studies of the Metabolism of Inositol 1,4,5-Trisphosphate in Rat Brain

Coupling of CNS receptors to phosphoinositide turnover has previously been found to vary with both age and brain region. To determine whether the metabolism of the second messenger inositol 1,4,5-trisphosphate also displays such variations, activities of inositol 1,4,5-trisphosphate 5'-phosphatase and 3'-kinase were measured in developing rat cerebral cortex and adult rat brain regions. The 5'-phosphatase activity was relatively high at birth (approximately 50% of adult values) and increased to adult levels by 2 weeks postnatal. In contrast, the 3'-kinase activity was low at birth and reached approximately 50% of adult levels by 2 weeks postnatal. In the adult rat, activities of the 3'-kinase were comparable in the cerebral cortex, hippocampus, and cerebellum, whereas much lower activities were found in hypothalamus and pons/medulla. The 5'-phosphatase activities were similar in cerebral cortex, hippocampus, hypothalamus, and pons/medulla, whereas 5- to 10-fold higher activity was present in the cerebellum. The cerebellum is estimated to contain 50-60% of the total inositol 1,4,5-trisphosphate 5'-phosphatase activity present in whole adult rat brain. The localization of the enriched 5'-phosphatase activity within the cerebellum was examined. Application of a histochemical lead-trapping technique for phosphatase indicated a concentration of inositol 1,4,5-trisphosphate 5'-phosphatase activity in the cerebellar molecular layer. Further support for this conclusion was obtained from studies of Purkinje cell-deficient mutant mice, in which a marked decrement of cerebellar 5'-phosphatase was observed. These results suggest that the metabolic fate of inositol 1,4,5-trisphosphate depends on both brain region and stage of development.     

Distribution of myo-Inositol in the Cat Cochlear Nucleus

Abstract: The distribution of myo -inositol, a substance that has been implicated in synaptic transmission, has been mapped within sections of the cat cochlear nucleus as well as some nearby regions. Highest values in the cochlear nucleus were found in regions of granule cells along the periphery of the anteroventral subdivision of the nucleus. Highest values overall were found in the molecular layer of the cerebellar flocculus. A fairly good correlation was found between myo -inositol levels and activities of the enzymes of acetyl-choline metabolism in the cat cochlear nucleus, supporting the possibility that myo -inositol may be involved in cholinergic synaptic transmission. No positive correlation was found between myo -inositol levels and the levels of glutamate, aspartate, glycine, or γ-aminobutyric acid (GABA). The most striking gradient of myo -inositol levels within a region was found in the auditory nerve, where different myo -inositol levels might be related to nerve fibers innervating different parts of the cochlea. The distribution of scyllo -inositol, a stereoisomer of myo -inositol, was also examined, and found to parallel closely the distribution of myo -inositol, with levels 4–5% as high.     

The Effect of Endurance Training on Regional Serotonin Metabolism in the Brain During Early Stage of Detraining Period in the Female Rat

1. The effect was examined of a single bout of nonexhaustive endurance exercise on tryptophan (Try), serotonin (5-HT), 5-hydroxyindolacetic acid (5-HIAA), and tryptophan hydroxylase (TpH) levels in different parts of rat brain (brain cortex, cerebellum, hypothalamus, midbrain striatum, medulla) on the last day of endurance training and 48 h later (detraining period).2. Female rats were subjected to a 6-week endurance training programme. The effectiveness of the training was evaluated by measuring anaerobic threshold (AT). High performance liquid chromatography (HPLC) was used to determine regional Try, 5-HT, and 5-HIAA contents in the brain, and thin layer chromatography followed by gas-liquid chromatography was used to determine blood levels of free fatty acids. Regional TpH levels were measured by Western blot analysis.3. In the two rat groups subjected to endurance training, in all brain regions studied but cerebellum, 5-HT content was significantly lower after the last bout of nonexhaustive endurance exercise than in resting control rats that were not subjected to the training. Similarly, the cortical and striatal, but not cerebellar, 5-HT/Try ratios were significantly lower in the trained rats at the end of the last training session and at the end of a single bout of nonexhaustive exercise administered after a 48-h detraining period than in the controls. TpH protein level was decreased by 15–25% after the last bout of exercise either during the training process or after the and 1 h bout of endurance exercise performed 48 h after cessation of endurance training in brain cortex and striatum but not cerebellar.4. These results indicate that the reduction in 5-HT level was the adaptive response to endurance training. The lowered 5-HT/Try ratio and lowered TpH protein level attained after the training process suggests and that this change may be, at least partially, attributed to downregulation of TpH activity.     

The myelinated parallel fibers of the cerebellar cortex and their regional distribution

Summary In the cerebellar cortex of the Rhesus monkey and the cat, the supraganglionic plexus in the molecular layer exhibits regional differences. The plexus is very well developed in the vermal parts of the anterior lobe, but only poorly developed in the nodulofloccular lobe. Most of the fibers of this plexus are myelinated parallel fibers, which synapse in the typical manner with dendritic thorns of Purkinje cells. Only very few fibers of this plexus are recurrent collaterals of Purkinje cells. Their distribution throughout the cerebellar cortex does not display regional differences. These findings agree with physiological data on the disinhibition of Purkinje cells in different parts of the cerebellar cortex.Dedicated to Professor Dr. med. Drs. h.c. W. Bargmann in honour of his 70th birthday.Supported by the Deutsche Forschungsgemeinschaft (La 184/2).     

Immunohistochemical Localization of α-Mannosidase During Postnatal Development of the Rat Cerebellum

The localization of alpha-D-mannosidase in the rat cerebellum was studied by using indirect immunohistochemistry at both optical and electron microscopic levels. In the adult the enzyme is particularly concentrated in the dendrites and cell bodies of Purkinje cells, basket cells, and Golgi neurons in the cerebellar cortex and in the cytoplasm and dendrites of deep nuclei neurons. The cytoplasm of granule cells is poorly stained, whereas parallel fibers, white matter, Bergman fibers, and Golgi epitheloid cell perikarya show virtually no staining. Electron microscopy suggests that most of the staining is found in the cytosol, although some staining is found in the postsynaptic densities of the synapses between parallel fibers and Purkinje dendrites. The pattern of staining was followed throughout the postnatal development of the rat cerebellum. At bith an intense and diffuse staining is found in all cells except those of the external germinative layer. At the 6th postnatal day, Purkinje cell bodies and apical cones are strongly labeled. From the 13th day on the pattern is very similar to that found in the adult. However, at the 18th postnatal day (when compared with the other structures), the staining of Purkinje cell dendrites seems to be higher than at all other ages. These data are correlated with biochemical studies and discussed in relation to the possible role of this enzyme during the postnatal development of the rat cerebellum.     

Distribution of unipolar brush cells and other calretinin immunoreactive components in the mammalian cerebellar cortex

We have compared the distribution of unipolar brush cells (UBCs) in the cerebellum of Brazilian opossum (Monodelphis domestica), mouse, guinea pig, rabbit, cat, and Rhesus monkey, using an antiserum to calretinin which is present in those cells. The morphology and calretinin staining intensity of the UBCs remains constant across species. As a general trend, in all species studied, UBCs are particularly enriched in the vestibulocerebellum. Interspecies differences, however, were noted in the distribution of UBCs across other regions of the cerebellar cortex. A major variation involves the extent of the UBC-rich region of the ventral portion of the paraflocculus. The distribution of UBCs in non-vestibular vermal folia also varies substantially. UBCs are deployed in more or less distinct parasagittal zones in the vermis of the opossum, rabbit, cat, and macaque. The density of UBCs decreases progressively from medial to lateral portions of the same folium and is lowest in the lateral, posterior portions of the cerebellar hemispheres (crus II) and in the dorsal portion of the paraflocculus. In cat and macaque, the decrease in the density of UBCs across the intermediate cortex is more gradual than in the other species. The data indicate that the UBCs play a more prominent role in the modulation of sensorimotor transformations in carnivores and primates than in smaller mammals and should not be considered a vestigial form of neuron. In addition to the UBCs, calretinin antibody distinctly stains the following neurons in different species: granule cells and parallel fibers in all species except rabbit and cat; Golgi cells, especially in rat and macaque; Lugaro-like cells, especially in mouse, rat, and macaque; basket cells in macaque; subsets of mossy fibers in all species; and subsets of climbing fibers in all species but guinea pig. Usually, the distribution of UBCs is related to that of calretinin stained granule cells and mossy fibers.     

Immunohistochemical identification of serotonin and noradrenalin containing structures within the nerve plexuses of rat ileum

The distribution of 5-hydroxytryptamine (= serotonin = 5-HT) and noradrenalin (NA) in the enteric plexuses of the rat ileum was studied using immunocytochemical techniques. 5-HT-like immunoreactive fibers were observed only in the myenteric plexus, surrounding the ganglionic cells, which are all unreactive. NA-like immunoreactive fibers were present in all layers of the ileum: in the myenteric plexus, they were localized in the nodes, forming a network all round the neuronal perikarya; in the Meissner plexus, positive axons were arranged in a delicate network; submucosal blood vessels were often provided by NA-immunopositive nerve plexus. In the inner circular muscle layer the immunoreactive NA-positive fibers run within nerve bundles mainly parallel with the smooth muscle cells. The 5-HT immunoreactive material was depleted by treatment with reserpine; depletion of NA by 6-hydroxy-dopamine was also observed; on the contrary, no depletion of 5-HT by 5,7-dihydroxytryptamine was obtained. To confirm the validity of these results, specific antibodies to tyrosine hydroxylase (TH) and aromatic 1-aminoacid-decarboxylase (AADC), two enzymes involved in the synthesis of catecholamines, were used. In conclusion these experiments indicate that 5-HT is present, probably as a transmitter, in certain fibres of the rat myenteric plexus, distributed in a way similar to that of NA-containing fibers. However, at variance with NA fibers, 5-HT fibers are not present in other regions of the intestine wall.     

Phylogenetic study of serotonin-immunoreactive structures in the pancreas of various vertebrates

Summary The distribution pattern of serotonin (5HT) in the pancreas was studied immunohistochemically by using a 5HT monoclonal antibody in various vertebrates including the eel, bullfrog, South African clawed toad, turtle, chicken, mouse, rat, guinea-pig, cat, dog and human. In all species examined, except the bullfrog, 5HT-like immunoreactivity was observed in nerve fibers, in endocrine cells, or in both. Positive nerve fibers were found in the eel, turtle, mouse, rat and guinea-pig. These fibers ran mainly along the blood vessels and partly through the gap between the exocrine glands. In the eel and guinea-pig, positive fibers invaded the pancreatic islet. Occasionally, these positive fibers were found adjacent to the surface of both exocrine and endocrine cells, suggesting a regulatory role of 5HT in pancreatic function. 5HT-positive endocrine cells were observed in the pancreas of all species except for the bullfrog and rat. In the eel and in mammals such as the mouse, guinea-pig, cat, dog and human, 5HT-positive cells were mainly observed within the pancreatic islet. In the South African clawed toad, turtle and chicken, the positive cells were mainly in the exocrine region. The present study indicates that the distribution patterns of 5HT in the pancreas varies considerably among different species.     

The projection of spinocerebellar neurons from the sacrococcygeal region of the spinal cord in the cat. An experimental study using anterograde transport of WGA-HRP and degeneration.

The projection from the sacro-coccygeal region of the spinal cord to the cerebellum was studied by two different techniques in the cat. In five cats wheat germ agglutinin-horseradish peroxidase conjugate (WGA-HRP) was injected caudal to a preceding unilateral cordotomy at the sacral level, aimed at interrupting the spinocerebellar tracts on one side completely, and the distribution of WGA-HRP labeled mossy fibers and mossy fiber terminals was studied in the cerebellum. In three additional cats, degenerating fibers were examined in Fink-Heimer stained sections following unilateral transection of the lateral and ventral funiculi at L7 or S3 level. In the WGA-HRP experiments the labeled mossy fiber terminals were located bilaterally in lobules I-V. Most of them were found in the anterior part of lobule II. In addition, labeled terminals were observed in sublobule VIIIB and in pars copularis of the paramedian lobule, contralateral to the cordotomy. The terminals in the anterior lobe were concentrated in longitudinal zones parallel to the mid sagittal plane. In lobule II, the terminals were most abundant in the superficial, apical parts of the folia. Some presumed terminals were also seen in the cerebellar nuclei. Labeled fibers were found contralateral, but not ipsilateral to the cordotomy in the superior and inferior cerebellar peduncles, as well as in the spinal cord rostral to the cordotomy. The results of the degeneration experiments were the same as those of the WGA-HRP experiments with regard to the detailed projections in the cerebellar cortex. This is strong support against the possibility that WGA-HRP labeled cerebellar mossy fiber terminals, following WGA-HRP injections in the spinal cord, would represent terminals of collaterals of retrogradely labeled neurons. It also lends strong support in favour of WGA-HRP as a reliable anterograde tracer for studying cerebellar cortical projections of spinocerebellar neurons in the cat.