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26. p75NTR in the spleen: age-dependent changes, effect of NGF and 4-methylcatechol treatment, and structural changes in p75NTR-deficient mice.

Author

Pérez-Pérez M, García-Suárez O, Esteban I, Germanà A, Fariñas I, Naves FJ, and Vega JA

Subjects
Animals, Animals, Newborn, Catechols metabolism, Dendritic Cells cytology, Dendritic Cells immunology, Immunohistochemistry, Male, Mice, Nerve Growth Factor metabolism, Neuroprotective Agents blood, Neuroprotective Agents metabolism, Rats, Rats, Wistar, Receptor, Nerve Growth Factor, Receptors, Nerve Growth Factor deficiency, Receptors, Nerve Growth Factor genetics, Spleen cytology, Spleen innervation, Aging physiology, Catechols pharmacology, Nerve Growth Factor pharmacology, Receptors, Nerve Growth Factor metabolism, Spleen metabolism
Abstract

In addition to their well-known actions within the nervous system, neurotrophins and their receptors are involved in immune system functioning, as demonstrated by their wide distribution in lymphoid tissues and their in vitro actions on immunocompetent cells. Nevertheless, the in vivo roles of neurotrophin-receptor systems in lymphoid tissues, as well as the scope of their influence throughout development and adulthood, are yet to be clarified. In the present study, we used combined morphological and immunohistochemical techniques to investigate the presence and cellular localization of p75NTR, the pan-neurotrophin receptor protein, in rat spleen from newborns to aging individuals, and the structural and innervation changes in the spleens of p75NTR-deficient mice. In rats, p75NTR was expressed by splenic nerve fibers and dendritic cells in an age-regulated fashion, with maximal expression detected at 2 weeks. Consistently, the spleens of newborn mice lacking this receptor protein showed no signs of ingrowing sympathetic fibers, along with an absence of defined white pulp areas. The present findings suggest a prolonged role of p75NTR in the physiology of the spleen; at least during the embryonic development period, the receptor may be critical for correct innervation and compartmentalization processes to occur., (Copyright 2003 Wiley-Liss, Inc.)

Published
2003
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27. Impaired dental cytodifferentiation in glial cell-line derived growth factor (GDNF) deficient mice.

Author

de Vicente JC, Cabo R, Ciriaco E, Laurà R, Naves FJ, Silos-Santiago I, and Vega JA

Subjects
Animals, Cell Differentiation, Dental Enamel cytology, Dentin cytology, Dentin ultrastructure, Glial Cell Line-Derived Neurotrophic Factor, Heterozygote, Homozygote, Mice, Mice, Inbred C57BL, Mice, Knockout, Mice, Mutant Strains, Nerve Tissue Proteins deficiency, Nerve Tissue Proteins genetics, Dental Enamel ultrastructure, Nerve Growth Factors, Nerve Tissue Proteins physiology
Abstract

Glial cell line-derived neurotrophic factor promotes the survival of multiple neuron types in the central and peripheral nervous system. Moreover, it plays a key role in the development of the enteric nervous system and in the kidney organogenesis. Glial cell line-derived neurotrophic factor and their receptors are expressed in the developing tooth as well as in the trigeminal ganglion. However, the precise role of this growth factor in tooth morphogenesis and cell differentiation, or in the development of trigeminal ganglion cells, is still elusive. Using structural and ultrastructural techniques we analyzed in detail the first molar tooth germ of glial cell line-derived neurotrophic factor deficient mice as well as the neuronal density in trigeminal ganglion. The length and width of first molar tooth germ in knockout deficient animals showed no differences in the knockout animals in comparison with age-matched heterozygous or wild-type littermates. Nevertheless, in mice lacking glial cell line-derived neurotrophic factor, both ameloblasts and odontoblasts failed to fully develop and differentiate, and the enamel matrix and predentin layers were absent. On the other hand, the number of trigeminal sensory neurons and the structure of the nerves supplying first molar tooth germ were largely normal. Present results suggest a new non-neuronal role for glial cell line-derived neurotrophic factor in tooth development. Glial cell line-derived neurotrophic factor seems not to be involved in tooth initiation and morphogenesis, whereas it seems essential for cytodifferentiation. Conversely, neither development of trigeminal neuron nor nerve fibers supplying teeth are directly dependent on glial cell line-derived neutrophic factor.

Published
2002
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28. Changes in the expression of the nerve growth factor receptors TrkA and p75LNGR in the rat thymus with ageing and increased nerve growth factor plasma levels.

Author

García-Suárez O, Germanà A, Hannestad J, Pérez-Pérez M, Esteban I, Naves FJ, and Vega JA

Subjects
Animals, Catechols pharmacology, Epithelial Cells metabolism, Immunohistochemistry, Macrophages metabolism, Male, Nerve Growth Factor pharmacology, Rats, Rats, Wistar, Receptor, Nerve Growth Factor immunology, Receptor, trkA immunology, Thymus Gland cytology, Aging, Nerve Growth Factor blood, Receptor, Nerve Growth Factor metabolism, Receptor, trkA metabolism, Thymus Gland growth & development, Thymus Gland metabolism
Abstract

The nerve growth factor (NGF) receptors p75LNGR and TrkA are expressed by thymic epithelial cells. Presumably, the NGF-TrkA system is involved in the paracrine communication between thymic epithelial cells and thymocytes, whereas the functional role of p75LNGR is still unknown. The thymus of vertebrates undergoes age-related changes that in part depend on hormonal factors. In order to find out whether thymic epithelial cells are responsive to NGF during the whole lifespan of the rat, we studied NGF receptor expression in the thymus from birth to 2 years of age, using immunohistochemistry. Furthermore, to evaluate whether increased plasma levels of NGF affected the ageing process, either NGF or 4-methylcatechol (4MC), an inductor of NGF synthesis, was administered. Both TrkA and p75LNGR were expressed by a subpopulation of thymic epithelial cells during the whole age range studied and their expression peaked at around 3 months. TrkA was primarily found in subcortical and medullary epithelial cells, whereas p75LNGR was seen in a subpopulation of medullary cells. Cortical epithelial cells, neural crest-derived cells, other stromal cells and thymocytes were not immunoreactive for NGF receptors. Neither the administration of NGF nor the increased NGF plasma levels obtained after 4MC treatment seemed to affect the ageing of the thymus as assessed by morphological and immunohistochemical criteria, but this increase in NGF levels did produce a shift in the expression of p75LNGR from epithelial cells to ED1-positive macrophages in animals of 6 months and older. Present results indicate that the expression of p75LNGR and TrkA in the rat thymus undergoes age-dependent changes that parallel those of epithelial cells. NGF could therefore be important for thymus homeostasis, possibly acting on epithelial cells. Nevertheless, NGF did not seem to be able to prevent the involution of this organ, although it produced a switch in the expression of p75LNGR, the significance of which remains to be established.

Published
2000
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29. Neurocalcin-immunoreactive neurons in the mammalian dorsal root ganglia, including humans.

Author

Galeano R, Germanà A, Abbate F, Calvo D, Naves FJ, Hidaka H, Germanà G, and Vega JA

Subjects
Adult, Animals, Cattle, Cell Count, Cell Size, Dogs, Fluorescent Antibody Technique, Indirect, Ganglia, Spinal metabolism, Horses anatomy & histology, Humans, Image Processing, Computer-Assisted, Lumbosacral Region, Male, Middle Aged, Neurocalcin, Neurons metabolism, Rats, Ruminants anatomy & histology, Species Specificity, Swine anatomy & histology, Calcium-Binding Proteins metabolism, Ganglia, Spinal cytology, Nerve Tissue Proteins metabolism, Neurons cytology, Receptors, Calcium-Sensing
Abstract

Neurocalcin (NC) is a recently characterized EF-hand calcium-binding protein present in a discrete population of sensory neurons and their peripheral mechanoreceptors, but its presence in peripheral nervous system neurons other than in the rat is still unknown. The present study was designed to investigate the occurrence of NC in the dorsal root ganglia (DRG) of several mammalian species (horse, buffalo, cow, sheep, pig, dog, and rat), including humans. DRG were fixed, embedded in paraffin, and processed for immunohistochemistry using a polyclonal antibody against NC. The size of the immunoreactive neurons was measured. In all species examined, NC immunoreactivity (IR) was restricted to neurons but the percentage, as well as the size of the immunoreactive neurons, varied among different species. As a rule, small neurons (diameter <20 microm) lack NC IR. In some species (pig, dog, buffalo, cow), only the largest neurons showed IR, whereas in others (sheep, horse, rat, and humans) they covered the entire range of neuron sizes. The pattern of immunostaining was cytoplasmic, although in some species (cow and buffalo), it formed a peripheral "ring." The present results demonstrate that mammalian DRG contain a subpopulation of NC-positive neurons, which varies from one species to another. Based on the neuron size, the possible function of the NC-containing neurons is discussed., (Copyright 2000 Wiley-Liss, Inc.)

Published
2000
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30. Development of Meissner-like and Pacinian sensory corpuscles in the mouse demonstrated with specific markers for corpuscular constituents.

Author

Albuerne M, De Lavallina J, Esteban I, Naves FJ, Silos-Santiago I, and Vega JA

Subjects
Animals, Antibodies, Axons chemistry, Biomarkers, Female, Male, Mechanoreceptors chemistry, Mice, Mucin-1 analysis, Mucin-1 immunology, Neurofilament Proteins analysis, Neurofilament Proteins immunology, Pacinian Corpuscles chemistry, Receptor, Nerve Growth Factor analysis, Receptor, Nerve Growth Factor immunology, S100 Proteins analysis, S100 Proteins immunology, Skin innervation, Thiolester Hydrolases analysis, Thiolester Hydrolases immunology, Ubiquitin Thiolesterase, Vimentin analysis, Vimentin immunology, Mechanoreceptors cytology, Mechanoreceptors growth & development, Pacinian Corpuscles cytology, Pacinian Corpuscles growth & development
Abstract

The development of Meissner-like and Pacinian corpuscles was studied in mice [from postnatal day (Pd) 0 to 42] by using immunohistochemistry for specific corpuscular constituents. The battery of antigens investigated included PGP 9.5 protein and neurofilaments, as markers for the central axon; S100 protein, vimentin, and p75(LNGFR) protein, to show Schwann-related cells; and epithelial membrane antigen to identify perineurial-related cells. In Meissner-like corpuscles immunoreactivity (IR) for neuronal markers was found by Pd7 and later. The lamellar cells of these corpuscles expressed first S100 protein IR (Pd7 to Pd42), then vimentin IR (Pd12 to Pd42), and transitory p75(LNGFR) IR (Pd7 to Pd19-20). Vimentin IR, but not epithelial membrane antigen, was detected in the capsule-like cells of the Meissner-like corpuscles. On the other hand, the density of Meissner-like corpuscles progressively increased from Pd0 to Pd19-20. Pacinian corpuscles were identified by Pd7. From this time to Pd42 the central axon showed IR for neuronal markers, and the inner core cells were immunoreactive for S100 protein. Moreover, vimentin IR was detected in the inner core cells by Pd19 and later. Unexpectedly, the central axons displayed S100 protein IR (from Pd7 to P28), while p75(LNGFR) protein IR or epithelial membrane antigen IR were never detected. Taken together, and based on the expression of the assessed antigens alone, the present results suggest that the Meissner-like and the Pacinian corpuscles in mice become mature around Pd19-Pd28 and Pd20, respectively. Furthermore, these results provide a baseline timetable for future studies in the normal or altered development of sensory corpuscles in mice since specific sensory corpuscles are functionally associated with different subtypes of sensory neurons the development of which is selectively disturbed in genetically manipulated mice., (Copyright 2000 Wiley-Liss, Inc.)

Published
2000
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31. S100alpha and S100beta proteins in human cutaneous sensory corpuscles: effects of nerve and spinal cord injury.

Author

Albuerne M, López S, Naves FJ, Martínez-Almagro A, Represa J, and Vega JA

Subjects
Adult, Aged, Child, Preschool, Female, Humans, Image Processing, Computer-Assisted, Immunoenzyme Techniques, Male, Middle Aged, Nerve Compression Syndromes pathology, Pacinian Corpuscles cytology, Skin innervation, Spinal Cord Injuries pathology, Calcium-Binding Proteins metabolism, Nerve Compression Syndromes metabolism, Pacinian Corpuscles metabolism, S100 Proteins, Skin metabolism, Spinal Cord Injuries metabolism
Abstract

S100 protein in the vertebrate peripheral nervous system consists of homo- or heterodimers of S100alpha and S100beta proteins, the first predominating in neurons and the second in glial cells. Recently, however, occurrence of S100beta protein in neurons has been reported. The expression of S100 protein by Schwann cells, as well as their derivatives in sensory corpuscles, depends on the sensory axon (i.e., the Schwann cell-axon contact). The present study analyzed the distribution of S100alpha and S100beta proteins in human cutaneous sensory corpuscles and the effects of peripheral or central sensory axon severance in the expression of these proteins. Simple or double immunohistochemistry was carried out using a panel of antibodies against S100alpha, S100beta or S100alpha+beta proteins, and the sections were examined by light or laser confocal scanning microscopy. Skin samples were obtained from normal subjects and patients with spinal cord injury, nerve entrapment, and nerve sections plus graft. The lamellar cells of Meissner corpuscles as well as the inner-core lamellae of the Pacinian corpuscles displayed strong immunoreactivity (IR) for all antigens examined, the most intense labeling being obtained for S100beta protein. The pattern of immunostaining was unchanged after spinal cord injury, whereas the number of stained corpuscles as well as the intensity of IR for each antigen decreased in cutaneous sensory corpuscles after nerve injury, both entrapment and section plus graft. No evidence was found of axonal labeling. The present results provide evidence that Schwann-related cells in human cutaneous sensory corpuscles contain both S100alpha and S100beta and that the expression of these proteins is dependent on the functional and structural integrity of sensory fibers.

Published
1998
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32. p75 and TrkA neurotrophin receptors in human skin after spinal cord and peripheral nerve injury, with special reference to sensory corpuscles.

Author

López SM, Pérez-Pérez M, Márquez JM, Naves FJ, Represa J, and Vega JA

Subjects
Adult, Aged, Child, Preschool, Female, Humans, Image Processing, Computer-Assisted, Immunoenzyme Techniques, Male, Middle Aged, Nerve Compression Syndromes metabolism, Nerve Compression Syndromes pathology, Pacinian Corpuscles pathology, Peripheral Nervous System Diseases pathology, Receptor, Nerve Growth Factor, Receptor, trkA, Skin innervation, Spinal Cord Injuries pathology, Pacinian Corpuscles metabolism, Peripheral Nerve Injuries, Peripheral Nervous System Diseases metabolism, Proto-Oncogene Proteins metabolism, Receptor Protein-Tyrosine Kinases metabolism, Receptors, Nerve Growth Factor metabolism, Skin metabolism, Spinal Cord Injuries metabolism
Abstract

Human skin, including nerves and sensory corpuscles, displays immunoreactivity (IR) for low- (p75) and high-affinity (TrkA-like) receptors for nerve growth factor (NGF), the best characterized member of the family of neurotrophins. This study was designed to analyze the changes induced by spinal cord and peripheral nerve injuries in the expression of neurotrophin receptors in digital skin, with special reference to nerves and sensory corpuscles. Skin biopsy samples were obtained from 1) the hand and toes of normal subjects, 2) below the level of the lesion of patients with spinal cord injury affecting dorsal and lateral funiculi, 3) the cutaneous territory of entrapped peripheral nerves (median and ulnar nerves), and 4) the cutaneous territory of sectioned and grafted nerves (median nerve). The pieces were formalin-fixed and paraffin-embedded, cut in serial sections, and processed for immunohistochemistry using antibodies against human p75 and TrkA proteins. The percentage of sensory corpuscles displaying IR for p75 and TrkA-like, as well as the intensity of IR developed within them, was assessed using quantitative image analysis. Spinal cord severance causes a decrease in p75 IR in Meissner and Pacinian corpuscles, whereas TrkA-like IR did not vary. In other nonnervous tissues (i.e., epidermis, sweat glands), both p75 and TrkA-like IR was diminished or even absent. Similar but more severe changes were encountered in the skin from the territory of entrapped nerves. Finally, in subjects with sectioned-grafted nerves, p75 IR was found close to controls in nerves, reduced in Meissner corpuscles, and absent in the inner core of the Pacinian ones; TrkA-like IR was in the perineurium, a small percentage of Meissner corpuscles (about 7%), and the outer core and capsule of the Pacinan corpuscles. In the nonnervous tissues, p75 IR was practically absent, whereas TrkA-like IR did not change. No changes in the expression of neurotrophin receptors were observed in Merkel cells of the different groups. Present results show the following: 1) expression of nerve p75 IR in human cutaneous sensory corpuscles is sensitive to central deafferentation, to blockade or difficulty in axonal transport, and to disruption of axonal continuity independently of possible restoration of axonal integrity due to grafts; 2) expression of TrkA-like IR in nerves and sensory corpuscles is sensitive only to nerve transection; 3) the corpuscular Schwann-related cells are the only cells involved in the above modifications, the perineurial cells remaining unchanged; 4) the expression of p75 and TrkA-like IR by Merkel cells is independent of normal innervation; 5) an adequate innervation of the skin seems to be necessary for the expression of p75 but not TrkA-like in nonneuronal cells, especially in the epidermis. A role for NGF in the maintenance of epidermis integrity is discussed.

Published
1998
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33. A neuronal subpopulation in the mammalian enteric nervous system expresses TrkA and TrkC neurotrophin receptor-like proteins.

Author

Esteban I, Levanti B, Garcia-Suarez O, Germanà G, Ciriaco E, Naves FJ, and Vega JA

Subjects
Aged, Animals, Cattle, Digestive System innervation, Female, Horses, Humans, Immunoenzyme Techniques, Male, Middle Aged, Myenteric Plexus metabolism, Neurons classification, Rabbits, Rats, Receptor, Ciliary Neurotrophic Factor, Receptor, Nerve Growth Factor, Receptor, trkA, Receptor, trkC, Sheep, Submucous Plexus metabolism, Swine, Myenteric Plexus cytology, Neurons metabolism, Proto-Oncogene Proteins metabolism, Receptor Protein-Tyrosine Kinases metabolism, Receptors, Nerve Growth Factor metabolism, Submucous Plexus cytology
Abstract

Increasing evidence suggests that, in addition to peripheral sensory and sympathetic neurons, the enteric neurons are also under the control of neurotrophins. Recently, neurotrophin receptors have been detected in the developing and adult mammalian enteric nervous system (ENS). Nevertheless, it remains to be established whether neurotrophin receptors are expressed in all enteric neurons and/or in glial cells and whether expression is a common feature in the enteric nervous system of all mammals or if interspecific differences exist. Rabbit polyclonal antibodies against Trk proteins (regarded as essential constituents of the high-affinity signal-transducing neurotrophin receptors) and p75 protein (considered as a low-affinity pan-neurotrophin receptor) were used to investigate the cell localization of these proteins in the ENS of adult man, horse, cow, sheep, pig, rabbit, and rat. Moreover, the percentage of neurons displaying immunoreactivity (IR) for each neurotrophin receptor protein was determined. TrkA-like IR and TrkC-like IR were observed in a neuronal subpopulation in both the myenteric and submucous plexuses, from esophagus to rectum in humans, and in the jejunum-ileum of the other species. Many neurons, and apparently all glial cells, in the human and rat enteric nervous system also displayed p75 IR. TrkB-like IR was found restricted to the glial cells of all species studied, with the exception of humans, in whom IR was mainly in glial cells and a small percentage of enteric neurons (about 5%). These findings indicate that the ENS of adult mammals express neuronal TrkA and TrkC, glial TrkB, and neuronal-glial p75, this pattern of distribution being similar in all examined species. Thus, influence of specific neurotrophins on their cognate receptors may be considered in the physiology and/or pathology of the adult ENS.

Published
1998
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34. Pregnancy-induced denervation of the human uterine artery correlates with local decrease of NGF and TrkA.

Author

Naves FJ, Vázquez MT, José IS, Martínez-Almagro A, and Vega JA

Subjects
Adult, Arteries enzymology, Arteries innervation, Blotting, Western, Enzyme-Linked Immunosorbent Assay, Female, Fluorescent Antibody Technique, Indirect, Gestational Age, Humans, Image Processing, Computer-Assisted, Middle Aged, Nerve Fibers ultrastructure, Tyrosine 3-Monooxygenase analysis, Denervation, Nerve Fibers metabolism, Nerve Growth Factor metabolism, Pregnancy physiology, Receptor, trkA metabolism, Uterus blood supply
Abstract

Pregnancy induces transient and reversible denervation of the mammalian uterus and uterine artery which origin remains still unclear. It is well established that the density of sympathetic innervation is regulated by the levels of peptidergic diffusible growth factors, especially nerve growth factor (NGF). Whether a decrease of NGF and/or its signal-transducing receptor TrkA are involved in this physiological denervation of the uterine artery during pregnancy has not been analyzed. The aim of the present study is to analyze this topic on human uterine artery using ELISA, Western blotting and immunohistochemistry (associated to quantitative image analysis). The material was obtained from surgical pieces (hysterectomy) of non-pregnant and pregnant women from 4 to 16 weeks of gestation. The density of innervation for tyrosine hydroxylase assessed in whole mount samples of uterine artery, as well as the density of nerve fibers identified with other general nerve (PGP 9.5 and NFP) or Schwann cell (S-100 protein) markers was significantly reduced (p<0.05) in the uterine artery from pregnant woman. On the other hand, the tissular levels of NGF, the density of TrkA, and the immunostaining for both NGF and TrkA, were significantly reduced in uterine arteries from pregnant patients. These results strongly suggest that the physiological denervation occurring in the uterine artery during pregnancy is related to a decrease in the availability of NGF by nerve fibers, and to the impossibility to mediate its effect due to a remarkable decrease in the signal-transducing TrkA receptor.

Published
1998

35. Immunohistochemical localization of S100 proteins in dorsal root, sympathetic and enteric ganglia of several mammalian species, including man.

Author

Albuerne M, Mammola CL, Naves FJ, Levanti B, Germanà G, and Vega JA

Subjects
Animals, Humans, Immunohistochemistry, Tissue Distribution, Enteric Nervous System metabolism, Ganglia metabolism, Ganglia, Spinal metabolism, Ganglia, Sympathetic metabolism, Mammals metabolism, S100 Proteins metabolism
Abstract

The occurrence of S100 proteins in neurons of the mammalian peripheral nervous system is still controversial. This study was designed to investigate this topic in dorsal root ganglia (DRG) and the enteric nervous system (ENS) of several mammalian species (horse, buffalo, cow, sheep, pig, dog, rabbit and rat), as well as in DRG, paravertebral sympathetic ganglia (SG) and ENS of the adult man. Rat embryos of E17 and E19 were also examined. The material was fixed in Bouin's fixative, paraffin-embedded and processed for immunohistochemistry, combined with image analysis, using a panel of mono and polyclonal antibodies against S100alpha, S100beta or S100alpha + beta (referred to here as S100) proteins. In all species examined, strong S100 protein immunoreactivity (IR) was found in satellite glial cells and Schwann cells, which also showed S100alpha and S100beta IR in humans. Furthermore, faint S100 protein IR was observed in a subpopulation of DRG intermediate- and large-sized sensory neurons in humans, buffalo, sheep, and pig. The rat was the only species showing clear S100 and S100beta in neurons, labelling in about 30-35% in adults (small, intermediate and large in size), and about 88% at E17 and 42% at E19, respectively. Weak S100alpha protein IR was observed in most of human SG neurons. In ENS, S100 protein IR was restricted to enteric glial and Schwann cells, with the exception of cow and goat in which a subset of neurons in both the myenteric and submucous plexuses displayed strong S100 protein IR. Neuronal S100alpha IR and glial S100beta IR was found in the human ENS. The present results demonstrate intra- and inter-specific differences in the expression of S100 proteins by neurons of the peripheral nervous system among mammalian species. Furthermore, they also suggest that neuronal S100 protein, at least in humans, consists of both S100alpha and S100beta.

Published
1998

36. TrkA neutrophin receptor protein in the rat and human thymus.

Author

Hannestad J, García-Suárez O, Huerta JJ, Esteban I, Naves FJ, and Vega JA

Subjects
Animals, Animals, Newborn growth & development, Animals, Newborn metabolism, Blotting, Western, Embryo, Mammalian metabolism, Epithelial Cells metabolism, Ganglia, Spinal metabolism, Humans, Immunohistochemistry, Infant, Newborn, Keratins metabolism, Receptor, trkA, Thymus Gland cytology, Thymus Gland embryology, Tissue Distribution, Proto-Oncogene Proteins metabolism, Rats metabolism, Receptor Protein-Tyrosine Kinases metabolism, Receptors, Nerve Growth Factor metabolism, Thymus Gland metabolism
Abstract

Background: Increasing evidence suggests that nerve growth factor (NGF), and probably other neurotrophins, are involved in the control of lymphoid organs and immunocompetent cells that express neurotrophins and/or their receptors. In the rat thymus, mRNA for TrkA (an essential component of the NGF signal transducing receptor) has been found primarily in stromal cells. The present study was undertaken to analyze the occurrence and localization of TrkA in the rat and human thymus, using Western blot and immunohistochemical techniques., Methods: Thymuses from human fetuses (estimated gestational ages of 29 and 32 weeks) and newborns (3 and 4 weeks old), as well as from 3-month-old rats were used. Human and rat samples were fixed in buffered 10% formaldehyde, paraffin-embedded, and processed for immunohistochemistry. Moreover, rat thymus samples were processed for Western blot analysis., Results: A protein band consistent with full-length TrkA (approximately 140 kDa) was detected in the rat thymus. Immunoreactivity (IR) for TrkA was exclusively found in thymic epithelial cells of both rat and human, identified because they also displayed cytokeratin IR. Interestingly, species-specific differences were noted for the expression of TrkA in different subtypes of thymic epithelial cells. Apparently, no immunolabelling was observed in other stromal cells or in lymphocytes., Conclusions: These results suggest that TrkA ligands may be involved in the control of thymic epithelial cells. This could be of potential importance because of the involvement of these cells in providing an appropriate microenvironment for maturation and selection of T lymphocytes.

Published
1997
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37. Neurotrophin receptor-like protein immunoreactivity in human lymph nodes.

Author

García-Suárez O, Hannestad J, Esteban I, Martínez del Valle M, Naves FJ, and Vega JA

Subjects
Adult, Antibodies, Monoclonal, Antigens, CD20 metabolism, Dendritic Cells metabolism, Female, Humans, Immunoenzyme Techniques, Lymph Nodes cytology, Macrophages immunology, Male, Middle Aged, Neck, Receptor, Nerve Growth Factor, S100 Proteins metabolism, Signal Transduction, Lymph Nodes metabolism, Receptor Protein-Tyrosine Kinases metabolism, Receptors, Nerve Growth Factor metabolism
Abstract

Background: Trk proteins are essential constituents of the high-affinity signal-transducing neurotrophin receptors. They are expressed in a variety of non-neuronal tissues, including lymphoid organs, but their cellular localization in these remains to be established, as does the exact role of neurotrophins in the immune system. In this study we used immunohistochemical methods to analyze the cellular distribution of TrkA, TrkB, TrkC, and p75 (the low-affinity pan-neurotrophin receptor) proteins in normal human lymph nodes., Methods: Formaldehyde-fixed, paraffin-embedded human lymph nodes were processed for indirect immunoperoxidase labelling, using antibodies against each Trk protein, human p75, and a panel of antibodies against B-lymphocytes (CD20), macrophages (MAC387), dendritic cells (S-100 protein)., Results: Immunoreactivity (IR) for p75 was observed in follicular dendritic cells of lymphoid follicles, and possibly in B cells. TrkA-like IR was seen in dendritic cells and also in some follicular dendritic cells, and in blood vessel walls. TrKB-like IR labelled scattered cells, mostly in the T cell zones, identified as macrophages, while specific TrkC-like IR could not be observed in immunocompetent cells. In no case was Trk-like IR seen in lymphocytes., Conclusions: These results demonstrate the occurrence of Trk-like proteins in normal human lymph nodes and describe their cellular localization, favoring the notion that neurotrophins have a physiological role in the immune system, possibly acting through accessory cells and not directly on lymphocytes.

Published
1997
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38. Sensory epithelium of the vomeronasal organ express TrkA-like and epidermal growth factor receptor in adulthood. An immunohistochemical study in the horse.

Author

Garcia-Suarez O, Germanà G, Naves FJ, Ciriaco E, Represa J, and Vega JA

Subjects
Animals, Blotting, Western, Cell Nucleus metabolism, Cilia metabolism, Epithelium anatomy & histology, Epithelium metabolism, Epithelium ultrastructure, Ganglia, Spinal metabolism, Immunohistochemistry, Microvilli metabolism, Receptor, Ciliary Neurotrophic Factor, Receptor, trkA, Receptor, trkC, Vomeronasal Organ chemistry, Vomeronasal Organ ultrastructure, ErbB Receptors metabolism, Horses anatomy & histology, Proto-Oncogene Proteins metabolism, Receptor Protein-Tyrosine Kinases metabolism, Receptors, Nerve Growth Factor metabolism, Vomeronasal Organ anatomy & histology
Abstract

Background: The medial wall of the vomeronasal organ (VNO) is lined with a sensory epithelium that is closely related to the olfactory epithelium, which is developed from the olfactory placode. It undergoes continuous replacement during its life span. In other sensory epithelia, cell proliferation is under the control of some trophic factors. Whether these proteins are involved in the continuous turnover of the VNO epithelium is unknown. This study approaches this topic by analyzing the occurrence of signal-transducing receptor proteins for neurotrophins (Trk proteins) and epidermal growth factor (EGFr)., Methods: VNO samples were obtained from adult horses (n = 9) and processed for Western blot or immunohistochemical detection of TrkA, TrkB, TrkC, and EGFr. For immunohistochemistry, both frozen and formalin-fixed, paraffin-embedded sections were used. Antibodies against Trk proteins were polyclonal antibodies that map within the intracytoplasmic domain. Antibodies against EGFr were monoclonal antibodies that map within the external (clone EGFR1) or the cytoplasmic (clone F4) domains., Results: TrkA-like, but not TrkB- or TrkC-like, protein was detected in the VNO. By using immunoblotting, protein bands of TrkA-like protein with estimated molecular weights of 43-45, 55, and 60 kDa were found. In agreement with these findings, the sensory epithelium lining the VNO displayed strong TrkA-like immunoreactivity. On the other hand, regular protein bands with estimated molecular weights of 100 and 170 kDa, corresponding with immature and full-length EGFr, respectively, were found with the clone F4, whereas the clone EGFR1 was ineffective in detecting EGFr with Western blot analysis. Positive EGFr immunolabelling was observed regularly in the supranuclear pole of the sensory epithelial cells, and the pattern was identical with both antibodies used., Conclusions: The present results provide evidence for the occurrence of EGFr in the VNO of the adult horse, suggesting a role for their ligands (EGF and transforming growth factor-alpha) in this organ, probably in continuous cell replacement, during the adult life span. However, although immunoreactivity for TrkA-like protein was regularly observed, because the full-length protein was not found, whether or not its putative ligands (nerve growth factor and neurotrophin-3) act on these cells remains to be demonstrated.

Published
1997
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39. Effect of spinal cord and peripheral nerve injury on human cutaneous sensory corpuscles. An immunohistochemical study.

Author

Márquez J, Pérez-Pérez M, Naves FJ, and Vega JA

Subjects
Adult, Aged, Amputation, Surgical, Child, Preschool, Female, Humans, Immunohistochemistry, Male, Middle Aged, Mucin-1 immunology, Mucin-1 metabolism, Neurofilament Proteins immunology, Neurofilament Proteins metabolism, Peripheral Nerves pathology, S100 Proteins immunology, S100 Proteins metabolism, Skin pathology, Vimentin immunology, Vimentin metabolism, Neurons, Afferent pathology, Pacinian Corpuscles pathology, Peripheral Nerve Injuries, Skin innervation, Spinal Cord Injuries pathology
Abstract

This study was aimed at analyzing the changes in cutaneous sensory corpuscles from the territory of lesioned nerves and clinically denervated skin of patients with spinal cord injury using immunohistochemical methods. The morphological and biochemical characteristics of the Schwann-related cells of the mature sensory corpuscles (lamellar cells of Meissner corpuscles and inner-core of Pacinian corpuscles) depend upon the axon. To clarify whether this dependence requires structural and/or functional integrity of sensory axons we analyzed immunohistochemically some axonal, Schwann cell and perineurial cell antigens in cutaneous sensory corpuscles from i) the underlesional levels of patients with spinal cord injury affecting dorsal and lateral funiculi; ii) peripheral nerve entrapment, iii) sectioned and grafted nerves. Skin biopsy samples from the hand or feet were processed for peroxidase-antiperoxidase immunohistochemistry using monoclonal antibodies directed against neurofilament proteins (to label the axons), S-100 protein (to label Schwann-related cells), epithelial membrane antigen (to label the perineurial derivatives), vimentin (to label both Schwann cell and perineurial derivatives). Meissner and Pacinian corpuscles of subjects suffering from spinal cord lesions showed an immunohistochemical profile close to normality, although in many of them S-100 protein was unevenly distributed or absent. Sensory corpuscles of the cutaneous territory of entrapped nerves were in most cases similar to those of normally innervated skin. The most striking finding in these subjects was the hyperinnervation of blood vessels and sweat glands. Finally, nerve section and subsequent unsuccessful graft repair resulted in absence of immunostaining for all the assessed antigens in sensory corpuscles. The present results suggest that structural, but not functional, integrity of the axon is essential in maintaining some immunohistochemical characteristics of the human cutaneous sensory corpuscles. Morphological findings are correlated and discussed in relation to the clinical evaluation of the sensitivity.

Published
1997

40. Immunohistochemical characteristics of cutaneous Herbst corpuscles from beak and rictus in domestic pigeon.

Author

Germaná G, Bronzetti E, Naves FJ, Ciriaco E, Germaná GP, and Vega JA

Subjects
Animals, Biomarkers, Immunohistochemistry, Male, Beak, Columbidae anatomy & histology, Mechanoreceptors cytology, Mouth cytology, Skin cytology
Abstract

Herbst corpuscles are the avian equivalent to the mammalian Pacinian corpuscles. In this study we used indirect peroxidase-anti peroxidase (PAP) immunohistochemistry to analyze the distribution in the pigeon cutaneous Herbst corpuscles, of several markers which are known to specifically label the axon, the Schwann-related and perineurial-related cells in Pacinian corpuscles. The distribution of the assessed antigens on Herbst corpuscles was as follows: i) the central axon displayed positive immunoreactivity for neurofilament proteins and neuron specific enolase; ii) the lamellar cells forming the inner-core were positive for S-100 protein and vimentin, whereas fibroblast surrounding them were vimentin and epithelial membrane antigen positive; iii) the capsule was focally immunolabelled for vimentin, and regularly for epithelial membrane antigen. No immunoreactivity was found neither for cytokeratins nor for glial fibrillary acidic protein. These observations demonstrate that the immunohistochemical profile of cutaneous (beak skin and rictus) Herbst corpuscles in pigeon is similar to that of the mammalian Pacinian corpuscles.

Published
1995

41. Beta-amyloid precursor protein in human digital skin.

Author

Vega JA, Diaz-Trelles R, Haro JJ, del Valle ME, Naves FJ, and Fernández-Sánchez MT

Subjects
Adult, Amyloid beta-Peptides metabolism, Humans, Immunoblotting, Immunohistochemistry, Mechanoreceptors metabolism, Nervous System metabolism, Pacinian Corpuscles metabolism, Skin innervation, Amyloid beta-Protein Precursor metabolism, Fingers, Skin metabolism
Abstract

The occurrence and distribution of beta-amyloid precursor protein (beta APP) and of beta-amyloid peptide (beta/A4) was investigated using immunoblotting and immunohistochemical techniques in the digital skin of healthy adult subjects. beta APP-like proteic bands with apparent molecular masses between 55-60 kDa, 100-125 kDa (corresponding to the full-length beta APP isoforms), 145-150 kDa, and 200 kDa were found in pellets and supernatants of whole skin and dermis. The same proteins, except that of approximately 200 kDa, were also found in pellets from the epidermis, whereas epidermic supernatants were unreactive. beta/A4 was not found by immunoblotting. Light microscope immunohistochemistry showed beta APP immunoreactivity (IR) in: (a) dermal nerves; (b) lamellar cells of Meissner, as well as inner-core, outer-core and capsule of Pacinian corpuscles; and (c) dermal blood vessels, sweat glands and, occasionally, epidermis. The distribution of beta/A4 IR matched that of beta APP, and no evidence of extracellular beta/A4 IR was encountered. Present results demonstrate that beta APP, but not beta/A4, is normally present in human glabrous (digital) skin. The potential clinical relevance of these findings is discussed.

Published
1995
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42. Age-related changes in brain microanatomy: sensitivity to treatment with the dihydropyridine calcium channel blocker darodipine (PY 108-068).

Author

Amenta F, Cavallotti D, Del Valle M, Mancini M, Naves FJ, Vega JA, and Zeng YC

Subjects
Alkaline Phosphatase metabolism, Animals, Brain metabolism, Lipofuscin pharmacokinetics, Male, Neurons metabolism, Nifedipine pharmacology, Rats, Rats, Wistar, Tissue Distribution, Aging physiology, Brain anatomy & histology, Brain drug effects, Calcium Channel Blockers pharmacology, Nifedipine analogs & derivatives
Abstract

The influence of aging and of treatment with the dihydropyridine Ca2+ antagonist darodipine (PY 108-068) on the age-related microanatomical changes of rat brain were studied in male Wistar rats treated from the 18th to the 24th month of age with an oral dose of 5 mg/kg/day of darodipine. Twelve-month-old untreated rats were used as an adult reference group. A decreased number of nerve cells and of alkaline phosphatase-positive capillaries and an increased lipofuscin deposition were observed in the frontal and occipital cortex, in the hippocampus, and in the cerebellar cortex of rats of 24 months in comparison with 12-month-old animals. The number of nerve cells was higher in the occipital cortex and in the hippocampus, but not in the frontal cortex and in the cerebellar cortex, of darodipine-treated rats in comparison with age-matched untreated animals. Lipofuscin deposition is reduced in all the brain areas investigated. The density of alkaline phosphatase-reactive capillaries is also increased in the frontal and occipital cortex and in the hippocampus of aged rats treated with darodipine. The above results suggest that treatment with darodipine is able to counter some microanatomical changes occurring in the brain of aged rats and involving not only microvascular parameters. The occipital (visual) cortex and the hippocampus were the cerebral areas more sensitive to treatment with darodipine. The possible relevance of these findings is discussed.

Published
1995
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43. beta-Amyloid precursor protein (beta APP) in human gut with special reference to the enteric nervous system.

Author

Cabal A, Alonso-Cortina V, Gonzalez-Vazquez LO, Naves FJ, Del Valle ME, and Vega JA

Subjects
Adult, Aged, Antibodies, Monoclonal, Blood Vessels chemistry, Digestive System innervation, Enteric Nervous System cytology, Epitope Mapping, Female, Humans, Image Processing, Computer-Assisted, Immunoblotting, Immunohistochemistry, Male, Middle Aged, Neurons chemistry, Amyloid beta-Protein Precursor analysis, Digestive System chemistry, Enteric Nervous System chemistry, Neurofilament Proteins analysis, S100 Proteins analysis
Abstract

The distribution of the beta-amyloid precursor protein (betaAPP) in the human gastrointestinal tract, from esophagus trough rectum, was studied using immunoblotting, as well as combined immunohistochemical and image analysis (optic microdensitometry) techniques. The study was focused on the enteric nervous system. betaAPP was detected by means of a monoclonal antibody (22C11), which recognizes all betaAPP isoforms as well as betaAPP-like proteins. Immunoblotting revealed two main protein bands, one corresponding to full-length betaAPPs (estimated molecular masses of approximately 97-115 kDa); the other corresponded to a protein with estimated molecular masses of 55 kDa. Specific betaAPP immunoreactivity (IR) was found in the submucous and myenteric plexuses localized in the supporting glial cells rather than in neurons. Differences were encountered neither in the localization nor in the intensity of immunostaining among different segments of the gastrointestinal tract. Moreover, no age-dependent changes were found. betaAPP IR was also regularly observed in blood vessels, primarily labelling endothelial cells. Our results provide evidence for the occurrence of betaAPP in human gastrointestinal tract of healthy people in both neuronal and nonneuronal tissues. Whether or not these findings have functional or clinical relevance remains to be clarified in future studies.

Published
1995
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44. Immunohistochemical localization of the high-affinity NGF receptor (gp140-trkA) in the adult human dorsal root and sympathetic ganglia and in the nerves and sensory corpuscles supplying digital skin.

Author

Vega JA, Vazquez E, Naves FJ, Del Valle ME, Calzada B, and Represa JJ

Subjects
Adult, Ganglia, Spinal cytology, Ganglia, Sympathetic cytology, Humans, Immunohistochemistry, Middle Aged, Neurons, Afferent cytology, Paraffin Embedding, Proto-Oncogene Mas, Receptor, trkA, Skin chemistry, Skin cytology, Ganglia, Spinal chemistry, Ganglia, Sympathetic chemistry, Neurons, Afferent chemistry, Proto-Oncogene Proteins analysis, Receptor Protein-Tyrosine Kinases analysis, Receptors, Nerve Growth Factor analysis, Skin innervation
Abstract

Background: Nerve growth factor (NGF) is produced in target tissues of sympathetic and neural-crest derived sensory neurons, including skin, to provide them trophic support. The biological effects of NGF on responsive cells are mediated by specific high-affinity receptors. Recently, a protein tyrosine kinase of congruent to 140 kDa molecular weight, encoded by the proto-oncogene trkA, has been identified as the high-affinity NGF receptor (gp140-trkA). The present work was undertaken to study the localization of gp140-trkA-like immunoreactivity (IR) in human peripheral ganglia (sympathetic and dorsal root ganglia), and in glabrous skin., Methods: Lumbar dorsal root ganglia, para- and prevertebral sympathetic ganglia, and digital glabrous skin were studied immunohistochemically using a rabbit anti-gp140-trkA polyclonal antibody. In order to accurately establish the localization of gp140-trkA IR, the neurofilament proteins and S-100 protein were studied in parallel in: (1) sensory and sympathetic ganglia, to label neuron cell bodies and satellite or supporting cells, respectively; (2) human skin, to label axons, Schwann and related cells within nerves and sensory corpuscles. Moreover, a quantitative study (neuron size, intensity of immunostaining) was carried out on sympathetic and dorsal root ganglia neuron cell bodies., Results: A specific gp140-trkA-like IR was found in: (1) a subpopulation (65%) of primary sensory neuron cell bodies, including most of the large-sized ones but also small- and intermediate-sized ones; (2) most of sympathetic neuron cell bodies (82%); (3) the perineurial cell, Schwann cells, and large axons of the nerve trunks supplying digital skin; (4) the lamellar cells of Meissner corpuscles; (5) the central axon, inner-core, outer-core, and capsule of Pacinian corpuscles. In addition, the occurrence of gp140-trkA-like IR was observed in some non-nervous tissues of the skin, including epidermis (mainly in the basal layer), sweat glands, and arterial blood vessels., Conclusions: Present results provide evidence for the localization of gp140-trkA-like IR in: (1) nerve cells which are known to be NGF-responsive, and (2) non-nervous cutaneous tissues which are innervated by NGF-dependent peripheral neurons. These findings suggest that, in addition to the well-established role of NGF on sensory and sympathetic neurons, this neurotrophin may be able to regulate some other functions on non-nervous cells which are targets for NGF-dependent peripheral neurons.

Published
1994
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45. Expression of beta-amyloid precursor protein (APP) in human dorsal root ganglia.

Author

Naves FJ, Calzada B, Cabal A, Alonso-Cortina V, del Valle ME, Fernandez-Sanchez MT, and Vega JA

Subjects
Adult, Amyloid beta-Protein Precursor chemistry, Ganglia, Spinal cytology, Humans, Immunoblotting, Immunohistochemistry, Isomerism, Male, Neurofilament Proteins metabolism, Neuroglia metabolism, S100 Proteins metabolism, Tissue Distribution, Amyloid beta-Protein Precursor metabolism, Ganglia, Spinal metabolism
Abstract

The present study reports the occurrence and localization of beta-amyloid precursor protein (APP) immunoreactivity (IR) in human lumbar dorsal root ganglia of healthy adult subjects (age range 25-43 years). To ascertain that ganglionic cells displayed APP IR, neurofilament (NFP) and S-100 proteins (S100P) were studied in parallel. Immunoblotting revealed four or five major proteins with apparent molecular masses between 100-125 kDa, which corresponded with the different full-length APP isoforms. Moreover, an additional protein of approximately 55 kDa was detected. Selective APP IR was observed restricted to the satellite glial cell cytoplasms whereas neuron cell bodies resulted unlabeled. Moreover, some intraganglionic nerve fibers also displayed APP IR, apparently labelling Schwann cells. No individual differences among subjects were observed neither in the pattern of APP IR distribution, nor in the intensity of APP IR. Although it remains to be demonstrated whether or not human primary sensory neurons express APP, present results strongly suggest that supporting glial cells may be a primary source of APP or any related peptide, at least in adult healthy people. The functional and clinical relevance of these findings, if any, remain to be clarified.

Published
1994
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46. beta-Amyloid precursor protein (APP)-like immunoreactivity in the human sympathetic ganglia.

Author

Calzada B, Cabal A, Naves FJ, del Valle ME, Represa JJ, and Vega JA

Subjects
Adult, Aged, Aged, 80 and over, Aging pathology, Female, Ganglia, Sympathetic cytology, Humans, Immunohistochemistry, Male, Middle Aged, Neurofilament Proteins metabolism, Neuroglia metabolism, Neurons metabolism, S100 Proteins metabolism, Aging metabolism, Amyloid beta-Protein Precursor metabolism, Ganglia, Sympathetic metabolism
Abstract

The localization of the beta/A4 amyloid precursor protein (APP) was studied in the human lumbar paravertebral sympathetic ganglia of subjects of different ages, free of neurologic disease, using combined immunohistochemistry and image analysis techniques (optic microdensitometry). To ascertain which cells displayed APP-like immunoreactivity (APP-LI), S-100 and neurofilament proteins were studied in parallel to label the supporting glial cells and the neuron perikarya, respectively. Specific APP-LI was observed labelling both neuron cell bodies and supporting glial cells independently of age. In all cases, the intensity of immunostaining was stronger in glial cells than in neurons. Moreover, the intensity of APP-LI was independent of both age and neuron size. Present results provide evidence for the presence of APP-LI in the human sympathetic ganglia, and for the absence of changes in the expression of this protein, or proteins, with aging. The functional and clinical relevance of these findings remains to be clarified.

Published
1994
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47. Distribution of protein gene product 9.5 (PGP 9.5) immunoreactivity in the dorsal root ganglia of adult rat.

Author

Calzada B, Naves FJ, Del Valle ME, and Vega JA

Subjects
Animals, Fixatives, Immunoenzyme Techniques, Male, Neurons metabolism, Rats, Rats, Wistar, Ubiquitin Thiolesterase, Ubiquitins metabolism, Ganglia, Spinal enzymology, Thiolester Hydrolases metabolism
Abstract

The rat dorsal root ganglia (DRG) contain heterogeneous subpopulations of sensory neurons as demonstrated by ultrastructural, histochemical and immunohistochemical methods. In this study we investigated whether phenotypic heterogeneity occurs in the distribution of protein gene product 9.5 (PGP 9.5) in DRG neurons of adult rats by combined immunohistochemical and image analysis (neuron-size and intensity of immunostaining) techniques. Moreover, the effect of different fixatives on the expression of PGP 9.5 was analyzed. PGP 9.5 immunoreactivity (IR) was observed in all primary sensory neurons and in the axons of the ganglionic nerve fibres, but not in the satellite glial cells or Schwann cells. Data from a quantitative study demonstrated that DRG neurons displayed a homogeneous pattern of PGP 9.5 IR which was not affected by fixatives, and no correlation between neuron size and intensity of immunostaining was encountered. Thus, as reported for other neuronal and neuroendocrine cell proteins, no heterogeneity exists in the phenotypic expression of immunohistochemically demonstrable PGP 9.5 in sensory neurons of the adult rat DRG.

Published
1994
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48. The inner-core, outer-core and capsule cells of the human Pacinian corpuscles: an immunohistochemical study.

Author

Vega JA, Del Valle ME, Haro JJ, Naves FJ, Calzada B, and Uribelarrea R

Subjects
Adolescent, Adult, Aged, Antibodies, Monoclonal, Antigens, CD analysis, Antigens, Differentiation, T-Lymphocyte analysis, Biomarkers, CD57 Antigens, Child, Humans, Immunoenzyme Techniques, Membrane Glycoproteins analysis, Middle Aged, Mucin-1, Mucins analysis, Nerve Tissue Proteins analysis, Pacinian Corpuscles chemistry, S100 Proteins analysis, Schwann Cells ultrastructure, Vimentin analysis, Pacinian Corpuscles cytology
Abstract

The distribution of several markers for Schwann cells and perineurial cells, including S-100 protein, Leu-7 antigen, vimentin and epithelial membrane antigen was studied immunohistochemically in Pacinian corpuscles from human digital skin. Formaldehyde fixed paraffin embedded tissues, and monoclonal antibodies were used. A positive immunostaining for S-100 protein, Leu-7 antigen and vimentin was found in the inner-core cells, whereas the outer-core and capsule lamellae were labelled for both epithelial membrane antigen and vimentin. The pattern of vimentin immunoreactivity was not homogeneous but focally distributed, and occasionally, positive immunoreactivity for vimentin was observed in blood vessels supplying the capsule. Present results provide evidence that some antibodies against Schwann cells and perineurial fibroblastic cells, selectively stain the Pacinian corpuscles derivatives while others are commonly expressed for non-neuronal cells of sensory nerve corpuscles.

Published
1994

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