Immunocytochemical localization of S-100b protein in degenerating and regenerating rat sciatic nerves.

We studied the cellular and subcellular distribution of S-100b protein in normal, crushed, and transected rat sciatic nerves by an immunocytochemical procedure. In uninjured nerves, S-100b protein was restricted to the cytoplasm and membranes of Schwann cells, with no reaction product present in the nucleus or in axons. Similar images were seen from the first to the thirtieth day after the crush in activated Schwann cells during the degeneration period, i.e., up to the seventh post-lesion day, and in normal Schwann cells reappearing during the regeneration period, i.e., after the seventh post-lesion day, in the zone of the crush and proximal and distal to it. By the technique employed, there seemed to be no differences in the intensity of the immune reaction product in normal and activated Schwann cells. Also, similar images were seen in the proximal stump of transected nerves. Only a slight S-100b protein immune reaction product could be observed in the rare activated Schwann cells present in the distal stump around the seventh post-lesion day, the majority of cell types being represented by fibroblasts and elongated cells at this stage and thereafter. By immunochemical assays, similar results as those presented here have been reported and interpreted as indicative of the presence of S-100 protein in axons or, alternatively, of axonal control over expression of S-100 protein in Schwann cells. Our immunocytochemical data clearly show that the strong reduction in the S-100 protein content of the distal stump of transected nerves is owing to the paucity of Schwann cells and to the decrease in the S-100 protein content of these cells, rather than to degeneration of axons.

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Immunocytochemical localization of S-100 beta beta protein in olfactory and supporting cells of lamb olfactory epithelium.

Journal of Histochemistry & Cytochemistry ◽

10.1177/37.12.2685111 ◽

1989 ◽

Vol 37 (12) ◽

pp. 1825-1833 ◽

Cited By ~ 15

Author(s):

M G Rambotti ◽

C Saccardi ◽

A Spreca ◽

M C Aisa ◽

I Giambanco ◽

...

Keyword(s):

Schwann Cells ◽

Olfactory Epithelium ◽

Plasma Membranes ◽

Immune Reaction ◽

Protein S ◽

Cell Types ◽

Olfactory Nerve ◽

Basal Cells ◽

Supporting Cells ◽

S 100

By immunocytochemistry, we have identified two novel cell types, olfactory and supporting cells of lamb olfactory epithelium, expressing S-100 beta beta protein. S-100 immune reaction product was observed on ciliary and plasma membranes, on axonemes and in the cytoplasm adjacent to plasma membranes and to basal bodies of olfactory vesicles. A brief treatment of olfactory mucosae with Triton X-100 before fixation is necessary for detection of S-100 beta beta protein within olfactory vesicles. In the absence of such a treatment, the immune reaction product is restricted to ciliary and plasma membranes. On the other hand, irrespective of pre-treatment of olfactory mucosae, S-100 beta immune reaction product in supporting cells is restricted to microvillar and plasma membranes. The anti-S-100 beta antiserum used in these studies does not bind to basal cells of the olfactory epithelium or to cells of the olfactory glands, whereas it binds to Schwann cells of the olfactory nerve. An anti-S-100 alpha antiserum does not bind to cellular elements of the olfactory mucosa, Schwann cells, or axons of the olfactory nerve. The present data provide, for the first time, evidence for the presence of S-100 beta beta protein in mammalian neurons (olfactory cells).

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The dynamic changes of main cell types in the microenvironment of sciatic nerves following sciatic nerve injury and the influence of let-7 on their distribution

RSC Advances ◽

10.1039/c8ra08298g ◽

2018 ◽

Vol 8 (72) ◽

pp. 41181-41191 ◽

Cited By ~ 4

Author(s):

Tianmei Qian ◽

Pan Wang ◽

Qianqian Chen ◽

Sheng Yi ◽

Qianyan Liu ◽

...

Keyword(s):

Sciatic Nerve ◽

Peripheral Nerve ◽

Schwann Cells ◽

Nerve Injury ◽

Cell Types ◽

Sciatic Nerve Injury ◽

Dynamic Changes ◽

Main Cell ◽

Sciatic Nerves

Schwann cells (SCs), fibroblasts and macrophages are the main cells in the peripheral nerve stumps.

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The effects of embryonic retinal neurons on neural crest cell differentiation into Schwann cells

Development ◽

10.1242/dev.109.4.925 ◽

1990 ◽

Vol 109 (4) ◽

pp. 925-934 ◽

Cited By ~ 1

Author(s):

L.C. Smith-Thomas ◽

A.R. Johnson ◽

J.W. Fawcett

Keyword(s):

Schwann Cell ◽

Neural Crest ◽

Schwann Cells ◽

Neural Crest Cell ◽

Neural Crest Cells ◽

Cell Types ◽

Cell Markers ◽

Ngf Receptor ◽

S 100 ◽

The Many

Amongst the many cell types that differentiate from migratory neural crest cells are the Schwann cells of the peripheral nervous system. While it has been demonstrated that Schwann cells will not fully differentiate unless in contact with neurons, the factors that cause neural crest cells to enter the differentiative pathway that leads to Schwann cells are unknown. In a previous paper (Development 105: 251, 1989), we have demonstrated that a proportion of morphologically undifferentiated neural crest cells express the Schwann cell markers 217c and NGF receptor, and later, as they acquire the bipolar morphology typical of Schwann cells in culture, express S-100 and laminin. In the present study, we have grown axons from embryonic retina on neural crest cultures to see whether this has an effect on the differentiation of neural crest cells into Schwann cells. After 4 to 6 days of co-culture, many more cells had acquired bipolar morphology and S-100 staining than in controls with no retinal explant, and most of these cells were within 200 microns of an axon, though not necessarily in contact with axons. However, the number of cells expressing the earliest Schwann cell markers 217c and NGF receptor was not affected by the presence of axons. We conclude that axons produce a factor, which is probably diffusible, and which makes immature Schwann cells differentiate. The factor does not, however, influence the entry of neural crest cells into the earliest stages of the Schwann cell differentiative pathway.

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scSorter: assigning cells to known cell types according to marker genes

Genome Biology ◽

10.1186/s13059-021-02281-7 ◽

2021 ◽

Vol 22 (1) ◽

Author(s):

Hongyu Guo ◽

Jun Li

Keyword(s):

Real Data ◽

Cell Types ◽

Exact Expression ◽

Marker Genes ◽

Specific Marker ◽

Sequencing Data ◽

Reference Dataset ◽

Over Expression ◽

Higher Power ◽

Cell Type Specific

AbstractOn single-cell RNA-sequencing data, we consider the problem of assigning cells to known cell types, assuming that the identities of cell-type-specific marker genes are given but their exact expression levels are unavailable, that is, without using a reference dataset. Based on an observation that the expected over-expression of marker genes is often absent in a nonnegligible proportion of cells, we develop a method called scSorter. scSorter allows marker genes to express at a low level and borrows information from the expression of non-marker genes. On both simulated and real data, scSorter shows much higher power compared to existing methods.

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The neural crest population responding to endothelin-3 in vitro includes multipotent cells

Journal of Cell Science ◽

10.1242/jcs.110.14.1673 ◽

1997 ◽

Vol 110 (14) ◽

pp. 1673-1682 ◽

Cited By ~ 1

Author(s):

J.G. Stone ◽

L.I. Spirling ◽

M.K. Richardson

Keyword(s):

Neural Crest ◽

Schwann Cells ◽

Cell Types ◽

Developmental Potential ◽

Colony Assay ◽

Cellular Targets ◽

Multipotent Cells ◽

Endothelin 3

The peptide endothelin 3 (EDN3) is essential for normal neural crest development in vivo, and is a potent mitogen for quail truncal crest cells in vitro. It is not known which subpopulations of crest cells are targets for this response, although it has been suggested that EDN3 is selective for melanoblasts. In the absence of cell markers for different precursor types in the quail crest, we have characterised EDN3-responsive cell types using in vitro colony assay and clonal analysis. Colonies were analysed for the presence of Schwann cells, melanocytes, adrenergic cells or sensory-like cells. We provide for the first time a description of the temporal pattern of lineage segregation in neural crest cultures. In the absence of exogenous EDN3, crest cells proliferate and then differentiate. Colony assay indicates that in these differentiated cultures few undifferentiated precursors remain and there is a low replating efficiency. By contrast, in the presence of 100 ng/ml EDN3 differentiation is inhibited and most of the cells maintain the ability to give rise to mixed colonies and clones containing neural crest derivatives. A high replating efficiency is maintained. In secondary culture there was a progressive decline in the number of cell types per colony in control medium. This loss of developmental potential was not seen when exogenous EDN3 was present. Cell type analysis suggests two novel cellular targets for EDN3 under these conditions. Contrary to expectations, one is a multipotent precursor whose descendants include melanocytes, adrenergic cells and sensory-like cells; the other can give rise to melanocytes and Schwann cells. Our data do not support previous claims that the action of EDN3 in neural crest culture is selective for cells in the melanocyte lineage.

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Immunohistochemical study of a canine neurofibroma

Journal of the South African Veterinary Association ◽

10.4102/jsava.v83i1.18 ◽

2012 ◽

Vol 83 (1) ◽

Cited By ~ 3

Author(s):

Hamidreza Fattahian ◽

Pejman Mortazavi ◽

Hamidreza Moosavian ◽

Hamid Mohyeddin ◽

Roozbeh Moridpour

Keyword(s):

Case Report ◽

Diagnostic Imaging ◽

Peripheral Nerve ◽

Schwann Cells ◽

Immunohistochemical Study ◽

Collagen Fibres ◽

Spindle Cells ◽

Left Mandible ◽

S 100 ◽

Diagnostic Approaches

Accurate diagnostic approaches to differentiate peripheral nerve sheet tumours from others have not been firmly established. The aim of this case report was to diagnose neurofibroma using a combination of diagnostic imaging, histopathology and immunohistochemistry, which were applied to a canine neurofibroma arising in the left mandible. The tumour was surgically excised and examined histologically. Round or spindle cells, with elongated, dense and homogenous chromatin and pale cytoplasm typical of Schwann cells in an abundant fibromyxomatous stroma, with ruby collagen fibres were seen. Immunohistochemistry demonstrated that S-100 and vimentin were more than 70% positive. Neurofibroma may therefore be recognisable using markers such as S-100 and vimentin.

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Segmental Neurofibromatosis Follows Blaschko's Lines or Dermatomes Depending on the Cell Line Affected: Case Report and Literature Review

Journal of Cutaneous Medicine and Surgery ◽

10.1177/120347540400800505 ◽

2004 ◽

Vol 8 (5) ◽

pp. 353-356

Author(s):

Fara P. Redlick ◽

James C. Shaw

Keyword(s):

Schwann Cells ◽

Clinical Manifestations ◽

Neurofibromatosis Type ◽

Cell Types ◽

Genetic Mutation ◽

The Body ◽

Chromosome 17 ◽

Medline Search ◽

Characteristic Features ◽

The Right

Background: Segmental neurofibromatosis type 1 (NF-1) has the characteristic features of generalized NF-1 but is isolated to a particular segment of the body. Segmental NF-1 results from a postzygotic mutation during embryogenesis in the NF-1 gene on chromosome 17. The embryologic timing of the mutation and cell types affected predict the clinical phenotype. Objective: We present a case of a 52-year-old woman with segmental neurofibromas isolated to the right cheek and neck. We review the recent literature on the genetic and cellular differences between the various clinical manifestations of segmental NF-1. Methods: A MEDLINE search for cases of segmental neurofibromatosis was conducted. Results: In patients with segmental NF-1 presenting as neurofibromas-only, the distribution follows a neural distribution in dermatomes because the genetic mutation appears to be limited to Schwann cells. In patients with pigmentary changes only, the NF-1 mutation has been shown to occur in fibroblasts and the distribution tends to follow the lines of Blaschko. Conclusion: Our patient's neurofibromas were secondary to a postzygotic mutation in the NF-1 gene of neural crest–derived cells. This mutation most likely occurred later in embryogenesis in cells that had already differentiated to Schwann cells and were committed to the dermatomal distribution of the right neck and cheek region (C2).

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Soft tissue myoepithelial carcinoma

Vojnosanitetski pregled ◽

10.2298/vsp0606611s ◽

2006 ◽

Vol 63 (6) ◽

pp. 611-614 ◽

Cited By ~ 6

Author(s):

Zorica Stojsic ◽

Dimitrije Brasanac ◽

Dragoljub Bacetic ◽

Radmila Jankovic ◽

Neda Drndarevic

Keyword(s):

Soft Tissue ◽

Cell Types ◽

Giant Cells ◽

Myoepithelial Cells ◽

High Grade ◽

Myoepithelial Carcinoma ◽

Cytologic Atypia ◽

S 100 ◽

Myxoid Matrix ◽

Subcutaneous Adipose

Background. Myoepitheliomas are tumors composed predominantly or exclusively of myoepithelial cells, usually arising in salivary glands. Cutaneous/soft tissue localization is very rare, especially for the malignant myoepitheliomas. Case report. We presented a case of myoepithelial carcinoma involving subcutaneous adipose tissue of the left forearm in a woman aged 62 years. The tumor was composed of epithelioid and hyaline cell types, arranged in diffuse sheets, nests and loose clusters within hyalinized and myxoid matrix. The neoplasm displayed high-grade cytologic atypia with some cells having pleomorphic, hyperchromatic nuclei, and others showing vesicular nuclei, large nucleoli with scattered bizarre giant cells. High mean mitotic count of 7 mitoses/10 high power fields and extensive necrosis favored the diagnosis of malignancy. Immunohistochemical staining was positive for cytokeratin (AE1/AE3), epithelial membrane antigen, S-100 protein, glial fibrillary acidic protein, and vimentin. Conclusion. Considering the subcutaneous localization, myoepithelial immunophenotype and high-grade cytologic atypia the neoplasm was classified as a soft-tissue myoepithelial carcinoma.

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