A previous study in the hairless mouse, in which the photoimmune protective properties of a topical phytoestrogen or 17-beta-estradiol were abrogated by the estrogen receptor antagonist ICI 182,780, revealed that estrogen receptor (Er) signaling is involved in the regulation of the suppression of immune function by UVB (290-320 nm) radiation. Here we identify the expression of Er-beta but not Er-alpha mRNA in hairless mouse skin, whereas Er-alpha and Er-beta mRNA were present in normal haired mouse skin. This suggests that the non-classical estrogen target Er-beta is involved in the photoimmune modulation, and is consistent with Er-alpha being more closely associated with hair growth control, as indicated by other studies. In mice with a null mutation for Er-beta, there was a significant exacerbation of the solar simulated UV (290-400 nm)-induced suppression of contact hypersensitivity. Immunohistochemical analysis revealed that the Er-beta deficiency inhibited the normally immunoprotective upregulation by the UVA (320-400 nm) waveband of the epidermal expression of the cytokines IFN-gamma and IL-12. Er-beta deficiency also significantly increased the UVB-induced expression of the immunosuppressive cytokine IL-10. Thus Er signalling via the Er-beta is evidently a major regulator of the UVA and UVB waveband interactions that determine the skin's immune functional status, and achieves this by normalization of the cutaneous cytokine array in the UV-irradiated skin.
Background: Propolis is a honeybee product that has been used in traditional medicine for antioxidant, immune-stimulating, anti-inflammatory and anti-cancer effects. Here, the potential of the topical application of a crude ethanolic extract of Sydney propolis to protect against UV-radiation-induced impairments associated with an increased risk of photocarcinogenesis has been tested in the hairless mouse. Methods: Solutions providing between 10 and 200 mg/kg propolis were applied to the skin following UV irradiation. The inflammation from exposure to UV (290–400 nm) was quantitated by measurement of increased skinfold thickness; lipid peroxidation was assayed by the induction of thiobarbituric acid reactive species in the skin; immune function was measured by the contact hypersensitivity (CHS) reaction and supported by the changes in epidermal cytokine expression. Results: Propolis protected significantly and dose-dependently against both sunburn oedema and the suppression of CHS, and (at 100 mg/kg) against lipid peroxidation. The overexpression of IL-10 and the depletion of IL-12 characteristic of photoimmune suppression were markedly reduced by propolis. Further, the upregulation of IL-6 was decreased, and the associated induction of haem oxygenase was shown to play a role in propolis skin protection. Conclusions: Sydney propolis was able to effectively reduce cutaneous inflammation, immunosuppression and lipid peroxidation induced by UV exposure. It is concluded that Sydney propolis might have strong beneficial protective effects against photodamage and skin cancer development in humans.
The goji berry, Lycium barbarum, has long been recognised in traditional Chinese medicine for various therapeutic properties based on its antioxidant and immune-modulating effects. This study describes the potential for orally consumed goji berry juice to alter the photodamage induced in the skin of mice by acute solar simulated UV (SSUV) irradiation. In Skh:hr-1 hairless mice, 5% goji berry juice significantly reduced the inflammatory oedema of the sunburn reaction. Dilutions of goji berry juice between 1% and 10% dose-dependently protected against SSUV-induced immunosuppression, and against suppression induced by the mediator, cis-urocanic acid, measured by the contact hypersensitivity reaction. The immune protection could not be ascribed to either the minor excipients in the goji juice, pear and apple juice, nor the vitamin C content, nor the preservative, and appeared to be a property of the goji berry itself. Antioxidant activity in the skin was demonstrated by the significant protection by 5% goji juice against lipid peroxidation induced by UVA radiation. Furthermore, two known inducible endogenous skin antioxidants, haem oxygenase-1 and metallothionein, were found to be involved in the photoimmune protection. The results suggest that consumption of this juice could provide additional photoprotection for susceptible humans.
The antioxidant and anti-proliferative biological effects of isoflavonoids are relevant properties to counteract the characteristics of many cutaneous diseases. This study uses ultraviolet (UV)B irradiation to induce inflammation in the mouse skin, as a model for some symptoms of cutaneous inflammatory and hyperproliferative diseases such as psoriasis in humans, with the objective of testing two topically applied isoflavonoid compounds for therapeutic properties. UVB exposure resulted in the overexpression of the cytokines, tumour necrosis factor (TNF)-a, interleukin (IL)-6 and the adhesion molecule P-cadherin. Infiltration into the dermal compartment of mast cell populations was also induced. These factors are also overexpressed in psoriatic skin. The effect of topical applications of two isoflavonoids, equol and a synthetic analogue NV-38, was tested. Both isoflavonoids dose dependently inhibited the UVB induction of cutaneous TNF-a mRNA and protein, a cytokine critical for the initiation of psoriatic inflammation. Expression of IL-6 mRNA and protein was also decreased, and the number of infiltrating mast cells into the dermis was reduced by both isoflavonoids. Furthermore, the upregulated mRNA and protein levels of P-cadherin, a marker characteristic of cutaneous hyperproliferation, were also normalized by both isoflavonoids. These results suggest that this class of compounds has the potential for useful, innocuous anti-inflammatory therapy from topical application in human cutaneous diseases. Keywords: cytokines; isoflavonoid; mast cells; mouse model; P-cadherin; ultraviolet B Natural isoflavones, of which genistein is the most well recognized, are plant-derived diphenolic compounds found in the human diet. Along with these, numerous metabolites and synthetic derivatives are known to have useful biological activities. 1 They may act as antioxidants, a property inherent from their polyphenolic molecular structure, and some of them also have binding affinity for oestrogen receptors and are therefore recognized as phytoestrogens. Topical application of some isoflavonoids is reported to have anti-inflammatory efficacy in both the human and the mouse skin, 2,3 as well as inhibitory action against the activation of nuclear factor-kB. 4 In this study, we used acute ultraviolet (UV)B (290-320 nm) irradiation to induce inflammation and epidermal hyperplasia in the mouse skin. The aim of the study was to investigate the effect of topical application of two selected isoflavonoid compounds on the UVB-induced expression of several key factors known to be significant for inflammatory and/or hyperproliferative cutaneous conditions in humans, of which psoriasis is the most common and the best characterized.This disease is both inflammatory and hyperproliferative, resulting in inflamed lesional areas of thick erythematous papules and silvery scaling skin, 5,6 and is believed to be initiated primarily by the overexpression of tumour necrosis factor (TNF)-a, which was found to be distributed throughout the epidermis in lesiona...
The Janus kinase and signal transducer and activator of transcription (JAK-STAT) pathway genes along with suppressors of cytokine signalling (SOCS) family genes play a crucial role in controlling cytokine signals in the mammary gland and thus mammary gland development. Mammary gene expression studies showed differential expression patterns for all the JAK-STAT pathway genes. Gene expression studies using qRT-PCR revealed differential expression of SOCS2, SOCS4, and SOCS5 genes across the lactation cycle in dairy cows. Using genotypes from 1,546 Australian Holstein-Friesian bulls, a statistical model for an association analysis based on SNPs within 500 kb of JAK-STAT pathway genes, and SOCS genes alone was constructed. The analysis suggested that these genes and pathways make a significant contribution to the Australian milk production traits. There were 24 SNPs close to SOCS1, SOCS3, SOCS5, SOCS7, and CISH genes that were significantly associated with Australian Profit Ranking (APR), Australian Selection Index (ASI), and protein yield (PY). This study supports the view that there may be some merit in choosing SNPs around functionally relevant genes for the selection and genetic improvement schemes for dairy production traits.
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