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Query: UNIPROT:P01189 (
beta-endorphin
)
21,003
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
There is increasing evidence that neuropeptides such as a substance P, neurotrophins or
beta-endorphin
, an endogenous agonist for mu-opioid receptor, are involved in the pathogenesis of
atopic dermatitis
in which mental stress and scratching deteriorate the disease. mu-Opioid receptor, a G-protein-coupled receptor, can be downregulated and internalized by agonists and other factors in vitro. In this study, we investigated the regulation of mu-opioid receptor and nerve endings in
atopic dermatitis
patients. Skin biopsies from
atopic dermatitis
patients revealed a significant downregulation of mu-opiate receptor expression in epidermis of
atopic dermatitis
. Permeabilization of the skin showed that the receptor in keratinocytes from
atopic dermatitis
is internalized. The mRNA expression pattern of the mu-opiate receptor is different in epidermis taken from patients with chronic
atopic dermatitis
compared to normal skin. In
atopic dermatitis
, the mRNA is concentrated in the subcorneal layers of the epidermis and in normal skin in the suprabasal layers. Staining of the nerve endings using protein gene product 9.5 shows a different pattern of epidermal nerve endings in normal skin compared to
atopic dermatitis
. In normal skin, the epidermal nerve endings are rather thick. However, in
atopic dermatitis
, the epidermal nerve endings are thin and run straight through the epidermis. Based on these observations and combining the 'intensity' and 'pattern' hypothesis, we propose a new theory especially for histamine-unrelated, peripheral induction of chronic pruritus. We suggest that 'itch' is elicited in the epidermal unmyelinated nerve C-fibers and 'pain' in the dermal unmyelinated nerve fibers. The downregulation of the opioid receptor in the epidermis contributes to the chronic itching. We call this new hypothesis the 'layer hypothesis'.
...
PMID:Changes of epidermal mu-opiate receptor expression and nerve endings in chronic atopic dermatitis. 1572 90
It is generally accepted that
corticotropin
-releasing hormone (CRH) acts as the main coordinator of the central response to stress. Stress or an abnormal response to stressors has been found to modify the evolution of skin disorders, including psoriasis and
atopic dermatitis
. Nevertheless, the specific pathogenic role of stress remains unknown in skin diseases. Interleukin (IL)-18, a member of the IL-1 family, is a key mediator of peripheral inflammation and host defense responses, and is secreted by human keratinocytes. Here, we investigated the regulatory effect of CRH on expression of IL-18 in skin keratinocytes. Exposure of HaCaT cells to CRH resulted in a reduction of IL-18 mRNA transcripts and its production was in a concentration-dependent manner. In order to investigate whether the mitogen-activated protein kinase (MAPK) signaling pathway is involved in the downregulation of IL-18 production, cells were pre-treated with SB203580, an inhibitor of p38 MAPK, prior to the addition of CRH. This pre-treatment blocked the decrease in IL-18 production. In addition, CRH treatment induced rapid phosphorylation of p38 MAPK. SB203580 were able to inhibit CRH-induced p38 MAPK phosphorylation. CRH also inhibited production of IL-18 in human primary keratinocytes. These results suggest that CRH regulates IL-18 production through the MAPK signaling pathway in human keratinocytes.
...
PMID:Corticotropin-releasing hormone (CRH) downregulates interleukin-18 expression in human HaCaT keratinocytes by activation of p38 mitogen-activated protein kinase (MAPK) pathway. 1581 33
Mast cells are well known for their involvement in allergic and anaphylactic reactions, but recent findings implicate them in a variety of inflammatory diseases affecting different organs, including the heart, joints, lungs, and skin. In these cases, mast cells appear to be activated by triggers other than aggregation of their IgE receptors (FcepsilonRI), such as anaphylatoxins, immunoglobulin-free light chains, superantigens, neuropeptides, and cytokines leading to selective release of mediators without degranulation. These findings could explain inflammatory diseases, such as asthma,
atopic dermatitis
, coronary inflammation, and inflammatory arthritis, all of which worsen by stress. It is proposed that the pathogenesis of these diseases involve mast cell activation by local release of
corticotropin
-releasing hormone (CRH) or related peptides. Combination of CRH receptor antagonists and mast cell inhibitors may present novel therapeutic interventions.
...
PMID:The critical role of mast cells in allergy and inflammation. 1719 58
Psychological stress is known to aggravate inflammatory skin diseases such as
atopic dermatitis
, psoriasis and contact sensitivity by altering the cellular constituents of the immune system. The skin appendages function dually as prominent targets and sources of the peripheral
corticotropin
-releasing hormone-proopiomelanocortin (CRH-POMC) axis. In this study, we examined the expression level of CRH-POMC axis constituents in psoriasis, a well-known stress-related inflammatory skin disease. The 15 psoriasis patients and six normal controls were retrospectively selected after extensive review of their clinical records and skin biopsy specimens. We immunohistochemically analysed the expressivity of CRH, adrenocorticotrophic hormone (ACTH) and
alpha-melanocyte-stimulating hormone
(
alpha-MSH
) in various types of psoriatic lesions and control skin. A significant increase of CRH expression was observed in psoriatic lesions, which involved the entire epidermis (upper layer in particular), hair follicles and sweat glands compared with controls. Expression of ACTH and
alpha-MSH
was clearly stimulated in a subset of psoriasis patients compared with controls, but on the whole, lacked statistical significance. The immunoreactivity of CRH, ACTH and
alpha-MSH
in psoriasis was not dependent on its clinical subtype, duration or number of previous treatments. Compared with the definite increase of CRH expression in psoriasis, the expression of the POMC peptides was heterogenous with no overall significance. From the findings, we suggest that CRH, a key stress hormone, may play an important role in the pathomechanism of psoriasis.
...
PMID:Expression of the corticotropin-releasing hormone-proopiomelanocortin axis in the various clinical types of psoriasis. 1722 23
Findings obtained using animal models have often failed to reflect the processes involved in human disease. Moreover, human cultured cells do not necessarily function as their actual tissue counterparts. Therefore, there is great demand for sources of human progenitor cells that may be directed to acquire specific tissue characteristics and be available in sufficient quantities to carry out functional and pharmacological studies. Acase in point is the mast cell, well known for its involvement in allergic reactions, but also implicated in inflammatory diseases. Mast cells can be activated by allergens, anaphylatoxins, immunoglobulin-free light chains, superantigens, neuropeptides, and cytokines, leading to selective release of mediators. These could be involved in many inflammatory diseases, such as asthma and
atopic dermatitis
, which worsen by stress, through activation by local release of
corticotropin
-releasing hormone or related peptides. Umbilical cord blood and cord matrix-derived mast cell progenitors can be separated magnetically and grown in the presence of stem cell factor, interleukin-6, interleukin-4, and other cytokines to yield distinct mast cell populations. The recent use of live cell array, with its ability to study such interactions rapidly at the single-cell level, provides unique new opportunities for fast output screening of mast cell triggers and inhibitors.
...
PMID:Human umbilical cord blood-derived mast cells: a unique model for the study of neuro-immuno-endocrine interactions. 1723 53
The micro-opioid (
beta-endorphin
/micro-opioid receptor) and kappa-opioid (dynorphin A (DynA)/kappa-opioid receptor) systems play pivotal roles in the modulation of pruritus in the central nervous system. The micro-opioid system has also been identified in human epidermis, raising the possibility that the system controls the peripheral itch. However, the precise distribution of the kappa-opioid system has not yet been clarified in human epidermis. To address this issue, reverse transcription-PCR and immunohistochemical analyses were performed on cultured keratinocytes and normal skins from humans. The analyses revealed that epidermal keratinocytes express kappa-opioid receptor and its ligands, DynA (1-17) and DynA (1-8). Moreover, expression for micro- and kappa-opioid systems was examined immunohistochemically in skin biopsies from healthy volunteers and patients with
atopic dermatitis
(AD) before and after psoralen-ultraviolet A (PUVA) therapy. Our expression analyses showed that only the kappa-opioid system, not the micro-opioid system, was downregulated in the epidermis of AD patients. The downregulation of the micro-opioid system and the restoration of the kappa-opioid system by PUVA therapy were observed in the AD patients, concomitant with a decrease of VAS (visual analogue scale) scores. These results suggest epidermal opioid systems are associated with the modulation of pruritus in AD. This new finding may help us to understand the control mechanism of peripheral itch.
...
PMID:Possible roles of epidermal opioid systems in pruritus of atopic dermatitis. 1761 80
Perceived stress has long been allied with disturbances of the dynamic equilibrium established between the nervous, endocrine and immune systems, thus triggering or aggravating disease manifestation. Several common skin diseases are now acknowledged to be worsened by psychological stress, particularly immunodermatoses such as
atopic dermatitis
, psoriasis, seborrheic eczema, prurigo nodularis, lichen planus, chronic urticaria, alopecia areata and pruritus sine materia. Itch (pruritus) is perhaps the most common symptom associated with a majority of these inflammatory skin diseases, and acute as well as chronic stress perceptions are recognized to trigger or enhance pruritus. A wealth of mediators released systemically or locally in the skin in response to stress increase sensory innervation, upregulate the production of other pruritogenic agents, perpetuate (neurogenic) inflammation and lower the itch threshold. In the present review, we explore recent frontiers in both stress and pruritus research and portray the perpetuation of chronic skin inflammation and itch as a neuroendocrine-immune 'misalliance'. We argue that key candidate molecules of the stress response with strong pruritogenic potential, such as nerve growth factor,
corticotropin
-releasing hormone and substance P, and mast cells, which may be considered as 'central cellular switchboards of pruritogenic inflammation', need to be further explored systematically in order to develop more effective therapeutic combination strategies for itch management in chronic, stress-vulnerable inflammatory skin diseases.
...
PMID:From the brain-skin connection: the neuroendocrine-immune misalliance of stress and itch. 1770 57
Atopic dermatitis
(AD) is a disease of increasing incidence among paediatric patients. Among the factors involved in its pathogenesis is the alteration of the immune response, and so the objective of this study was to evaluate the involvement of certain neuroendocrine factors with immune properties in the development of the disease. Fifty-five subjects were selected and divided into the following three groups: healthy subjects, those diagnosed with symptomatic AD and those with asymptomatic AD. Plasma levels of melatonin and beta-endorphins were measured by radioimmunoassay, in serum samples obtained at 9 am and 9 pm, with two samples being obtained from each of the patients and controls. In the phases of AD outbreaks, there is a reduction in the serum levels of both melatonin and
beta-endorphin
. In the case of melatonin, the difference is statistically significant only during the day, although nocturnal levels are greater for both hormones. In AD, a central neuroendocrine dysfunction may be a primary pathogenic event. Our hypothesis is that the physiological nocturnal peak of melatonin due to pineal gland production may mask the decline of melatonin of possibly extrapineal (immunological) origin during episodes of dermatitis outbreaks. Further studies are required, particularly of neurovegetative and hormonal aspects, to better define this process. Such a definition would also be of therapeutic interest.
...
PMID:Neuroendocrine and circadian aspects (melatonin and beta-endorphin) of atopic dermatitis in the child. 1807 22
Patients with a specific subtype of
atopic dermatitis
(AD) display particular patterns of pigmentation, such as ripple pattern pigmentation on the neck, pigmented macules on the lip and diffuse pigmentation. However, the mechanism underlying these patterns has not been determined. The purpose of our research is to investigate the factors influencing this type of pigmentation in AD. We observed that AD model mice (NC/Nga mice) displayed an increase in the number of 3, 4-dihydroxyphenylalanine (Dopa)-positive melanocytes in the epidermis and intestine (jejunum and colon) while in the inflammatory state. The plasma levels of
alpha-melanocyte-stimulating hormone
(
alpha-MSH
) and adrenocoticotropin (ACTH) also increased in NC/Nga mice with dermatitis. Furthermore, the expression of melanocortin receptor 5 and melanocortin receptor 1 (MC1R) increased in the skin, and melanocortin receptor 3 (MC3R) expression increased in the intestine. However, the changes in the Dopa-positive cells of conventional NC/Nga mice were not induced by treatment with either agouti (an MC1R antagonist) or agouti-related protein (an MC3R antagonist). These results indicate that the pigmentation of AD is related to increased levels of
alpha-MSH
, MC1R (in the skin) and MC3R (in the intestines).
...
PMID:Increased alpha-melanocyte-stimulating hormone (alpha-MSH) levels and melanocortin receptors expression associated with pigmentation in an NC/Nga mouse model of atopic dermatitis. 1988 22
Mast cells are powerful inflammatory cells which are in close functional and anatomical association with sensory nerves in the skin. During psychological stress the neuroendocrine system and peripheral sensory nerves are activated leading to release of mediators, such as neuropeptides, neurotrophins,
corticotropin
-releasing hormone and a-melanocyte-stimulating hormone, which are capable of activating mast cells. On the other hand, mast cell mediators released, e.g. histamine, tryptase and nerve growth factor, can in turn excite and stimulate surrounding neuropeptide-containing C-fibers possibly resulting in feedforward loop and potentiation of neurogenic inflammation. In these mechanisms, proinflammatory cytokines and chemokines are released from mast cells. In chronic skin diseases, psoriasis,
atopic dermatitis
and palmoplantar pustulosis, the contacts between tryptase-positive mast cells and sensory nerves are increased in number, which provides the morphological basis for increased mast cell - sensory nerve interaction in chronically inflamed skin. Hence, in this review the current understanding of the role of cutaneous mast cells and sensory nerves and their activation in psychic stress is discussed.
...
PMID:Role of mast cells and sensory nerves in skin inflammation. 2046 93
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