1,721,003 research outputs found
Nerve growth factor (NGF) binds to normal human keratinocytes through high and low affinity receptors and stimulates their growth by a novel autocrine loop.
Full text linkNormal human keratinocytes synthesize and secrete biologically active nerve growth factor (NGF) in a growth regulated fashion (Di Marco, E., Marchisio, P. C., Bondanza, S., Franzi, A. T., Cancedda, R., and De Luca, M. (1991) J. Biol. Chem. 266, 21718-21722). Here we show that the same human keratinocytes bind NGF via low and high affinity receptors. In parallel with the course of NGF synthesis, the expression of low affinity NGF receptor (p75NGFr) decreases when a confluent, differentiated, and fully stratified epithelium is obtained. In skin sections, p75NGFr is present in basal keratinocytes and absent from suprabasal, terminally differentiated cells. The trkA protooncogene product (p140trkA), a component of the NGF receptor, is not expressed by keratinocytes. Instead, keratinocytes express a new member of the trk family (that we termed trkE), which generates 3.9-kilobase transcripts. Keratinocyte-derived NGF plays a key role in the autocrine epidermal cell proliferation. This has been proven by (i) direct effect of NGF on [3H]thymidine incorporation, (ii) inhibition of autocrine keratinocyte growth by monoclonal antibodies (alpha D11) inhibiting human NGF biological activity, and (iii) inhibition of autocrine keratinocyte proliferation by a trk-specific inhibitor, the natural alkaloid K252a. These data provide evidence that NGF, in addition to its effect as a survival and differentiation factor, is a potent regulator of cell proliferation, at least in human epithelial cells
Role of integrins in cell adhesion and polarity in normal keratinocytes and human skin pathologies
No full textIn vitro, normal human keratinocytes reconstitute a differentiated stratified epidermis, maintaining the same gene expression pattern as its in vivo counterpart and are suitable for permanent grafting onto patients. Keratinocyte adhesion to basal lamina and lateral interactions among basal epidermal cells are also mediated by integrin receptors that are sorted to defined plasma membrane domains. The hemidesmosome-associated integrin alpha 6 beta 4 is sharply localized at the basal surface of basal cells and codistributes with laminin and nicein/kalinin; the alpha 2 beta 1 and alpha 3 beta 1 integrins are enriched laterally and play crucial roles in cell-cell interaction and proper colony morphology. During wound healing, proliferating and migrating keratinocytes express on their plasma membrane alpha v beta 5 and alpha 5 beta 1, which allow keratinocyte attachment and migration over the provisional matrix present in the wound. TGF beta, which is an autocrine and paracrine mediator in wound healing, specifically increases the synthesis and expression of alpha v beta 5 and alpha 5 beta 1, induces the de novo expression of alpha v beta 6, and determines the loss of integrin polarization. In hyperproliferative skin diseases, such as skin cancer or psoriasis vulgaris, and in normal keratinocytes forced into more frequent cell cycles, the polarized expression of integrins is lost, and alpha 5 beta 1 becomes costitutively expressed on the plasma membrane. In addition, the alpha 6 beta 4 integrin becomes associated with focal contacts. Nerve growth factor (NGF) is a potent autocrine stimulator of keratinocyte growth and induces melanocyte migration toward the leading edge of a healing woun
Topography and biological role of integrins in human skin
No full textWe report the topography of integrins in the human epidermis and in cultured human keratinocytes. Both in situ and in vitro beta 1 integrins are exposed at the cell-cell adhesion interface while beta 4 is located on the basal membrane in contact with the basal lamina. Such defined sorting identifies discrete cell membrane domains that may be involved in defining, building up, and maintaining epithelial cell polarity. The distribution of integrins is deeply altered in hyperproliferative states like those occurring in several experimental conditions and in epidermal diseases
Psoriatic lesions in patients with chronic liver disease are distinct from psoriasis vulgaris lesions, as judged on basis of integrin adhesion receptors
No full textPsoriatic lesions are relatively frequent in patients with chronic liver disease. Furthermore, therapy with interferons tends to exacerbate the symptoms. The pathogenesis of psoriatic lesions is unclear. An important question is whether such lesions may be linked to the underlying chronic liver disease in these patients, or whether they are incidental manifestations of psoriasis vulgaris. We collected biopsy specimens from involved and uninvolved skin areas of chronic liver disease patients with psoriatic manifestations, as well as from psoriasis vulgaris patients, and investigated the patterns of integrin adhesion receptors by means of immunohistochemical methods. Integrin expression is known to be characteristically altered in psoriasis vulgaris. We found some of these changes in chronic liver disease psoriatic lesions-namely pericellular redistribution and suprabasal expression of the basement membrane receptor alpha 6 beta 4 and of the intercellular integrins alpha 2 beta 1 and alpha 3 beta 1. However, psoriasis vulgaris causes two other typical changes: One is the induction of the prototype fibronectin receptor alpha 5 beta 1, and the other is the alteration of integrin expression in areas of the epidermis that are macroscopically normal. These two changes were not found in chronic liver disease psoriasis biopsy specimens in 14 patients investigated. Thus integrin expression may be useful in differentiating chronic liver disease psoriatic lesions from psoriasis vulgaris lesions. Even though the two types of lesions are indistinguishable on inspection or by their histological features, they may be caused by distinct pathogenetic mechanisms. It remains to be seen whether the underlying chronic liver disease has a role, albeit indirect, in such mechanisms
Role of manganese in MG-63 osteosarcoma cell attachment to fibrinogen and von Willabrand factor
No full textSome integrin receptors have been reported to be functionally distinct in different cell types. In endothelial and melanoma cells, the vitronectin receptor, alpha v beta 3 binds fibrinogen (fg) and von Willebrand factor (vWf) in addition to vitronectin itself, whereas it fails to do so in MG-63 osteosarcoma cells. In this report, it is shown that, in the presence of Mn2+, MG-63 cells attach more efficiently to vitronectin and acquire the de novo capacity to adhere to fg- and vWf-coated surfaces. The latter phenomenon occurs with full cell spreading, F-actin microfilament organization, and alpha v and beta 3 clustering at focal contacts. In contrast, beta 1 and beta 5 do not localize to adhesion plaques under the same experimental conditions. An antiserum to the beta 3 chain and a synthetic peptide containing the sequence Gly-Arg-Gly-Asp-Ser-Pro block MG-63 attachment to fg and vWf in the presence of Mn2+. The minimal active concentration of Mn2+ is in the range of 0.1 to 1 microns. These data suggest that the acquired capacity of MG-63 to attach to fg and vWf in the presence of Mn2+ is mediated by alpha v beta 3 and that differences in alpha v beta 3 receptor specificity may be modulated by exogenous factors
Growth-regulated synthesis and secretion of biologically active nerve growth factor by human keratinocytes.
Full text linkNerve growth factor (NGF) transcripts were identified in normal human keratinocytes in primary and secondary culture. The expression of the NGF mRNA was strongly down-regulated by corticosteroids and was maximal when keratinocytes were in the exponential phase of growth. Immunofluorescence studies on growing keratinocytes colonies and on elutriated keratinocytes obtained from growing colonies and mature stratified epithelium showed specific staining of the Golgi apparatus only in basal keratinocytes in the exponential phase of growth. The keratinocyte-derived NGF was secreted in a biologically active form as assessed by neurite induction in sensory neurons obtained from chick embryo dorsal root ganglia. Based on these data we suggest that the basal keratinocyte is the cell synthesizing and secreting NGF in the human adult epidermis. The paracrine secretion of NGF by keratinocytes might have a major role in regulating innervation, lymphocyte function, and melanocyte growth and differentiation in epidermal morphogenesis as well as during wound healing
Psoriatic lesions in patients with chronic liver disease are distinct from psoriasis vulgaris lesions, as judged on basis of integrin adhesion receptors
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