真菌与变态反应性疾病的相关性CSCD

真菌的孢子和(或)菌丝经各种途径进入人体后,都有可能引起过敏反应,呼吸道和皮肤是真菌致敏的主要反应器官。该文就常见的致敏真菌、真菌的致敏机制、真菌所致呼吸道和皮肤变态反应性疾病等进行综述。     

浅部真菌感染和变态反应性皮肤病相关性研究

目的 通过比较合并与未合并浅部真菌感染的变态反应性皮肤病对常用变应原的敏感性,综合从皮肤或指(趾)甲中分离出的菌种情况,评估浅部真菌感染在变态反应性皮肤病的病因学中的作用.方法 受试者包括353例慢性荨麻疹、湿疹及特应性皮炎患者.通过真菌直接镜检法将受试者分为两组.实验组:变态反应性皮肤病合并浅部真菌感染组(n =173);对照组:变态反应性皮肤病无浅部真菌感染组(n=180).对所有实验组及对照组受试者进行9种真菌变应原和9种非真菌变应原皮内试验.实验组患者进一步进行真菌培养以鉴定菌种.结果 慢性荨麻疹患者实验组须发癣菌、新月弯孢霉,特异青霉、烟曲霉变应原阳性率显著高于对照组(P＜0.05),慢性湿疹患者实验组须发癣菌变应原阳性率显著高于对照组(P ＜0.001).慢性湿疹、荨麻疹患者其他真菌变应原及粉尘螨、屋尘螨等非真菌变应原阳性率比较差异均无统计学意义(P＞0.05).134例患者皮肤或指(趾)甲分离鉴定主要为红色毛癣菌(52.86％)、须癣毛癣菌(14.18％)、絮状表皮癣菌(5.22％)、白念珠菌(6.72％),实验组须发癣菌变应原阳性率及皮肤分离皮肤癣菌阳性率比较差异无统计学意义(P＞0.05).结论 实验结果表明,须发癣菌变应原阳性的慢性荨麻疹、湿疹患者往往合并皮肤癣菌感染,皮肤癣菌感染可能在部分慢性荨麻疹、湿疹的病因学中起重要作用.     

真菌与变态反应性疾病的相关性

真菌的孢子和(或)菌丝经各种途径进入人体后,都有可能引起过敏反应,呼吸道和皮肤是真菌致敏的主要反应器官。该文就常见的致敏真菌、真菌的致敏机制、真菌所致呼吸道和皮肤变态反应性疾病等进行综述。     

马拉色菌致病相关因子的研究进展

马拉色菌是人类和温血动物皮肤的常驻菌,亦是一种条件致病性真菌,它可以引起花斑癣、马拉色菌毛囊炎、脂溢性皮炎等多种疾病。脂酶、蛋白酶、磷脂酶和脂氧合酶等为马拉色菌主要侵袭性酶。马拉色菌与角质形成细胞共培养可引起角质形成细胞多种形态学改变、细胞因子含量变化和细胞凋亡。     

马拉色菌相关疾病研究现状

马拉色菌是一种存在于人体皮肤表面的真菌,容易诱发真菌感染性皮肤疾病,其中花斑癣的发病与该菌属存在着直接的相关性。目前研究表明脂溢性皮炎、特应性皮炎、马拉色菌毛囊炎、银屑病等相关疾病的发生和发展均与马拉色菌属的感染存在着一定的联系。在综合相关文献报道的基础上,对马拉色菌属在一些常见皮肤疾病中的发病机制进行了有关的概述。     

马拉色菌相关疾病研究现状

马拉色菌感染是皮肤科常见的真菌感染性疾病,其中花斑癖的发病与该菌属存在着直接的相关性,目前研究表明脂溢性皮炎、特应性皮炎、马拉色菌毛囊炎、银屑病等相关疾病的发生与发展与马拉色菌属的感染存在着一定的联系。本研究综述结合相关文献报道,对马拉色菌属在一些常见皮肤疾病中的发病机制和相关致病机制作了一定概述。     

漫话大型真菌的形态特征

大型真菌主要是指子囊菌纲(Ascomycetes)和担子菌纲(Basidiomycetes)中的一些体型较大的真菌种类。大型真菌具有各种各样的外部形态,一般常见的有头状、笔状、树枝状、花朵状、舌状、球状和伞状等。通过这些众多的形态特征,我们可以大致了解一些有关高等真菌的演化、孢子释放形式、对生态环境的适应等情况。     

真菌鞘糖脂的生物学功能及应用研究进展

丝状真菌作为一类重要的微生物，被广泛应用于发酵食品、工业酶和次生代谢物等工业生产中。真菌鞘糖脂主要由鞘氨醇、脂肪酸链和特殊的极性基团组成，根据极性基团的不同，分为中性鞘糖脂和酸性鞘糖脂两大类。鞘糖脂不仅参与真菌生长、细胞分化、增殖、细胞凋亡、逆境胁迫等重要生理活动，中性鞘糖脂还可作为功能性医药用品、化妆品和保健食品的重要活性组分。本文论述了真菌鞘糖脂的主要种类、结构、生物合成途径和及其参与丝状真菌生长、分化和响应逆境胁迫的生物学功能；探讨了真菌中性鞘糖脂作为抗菌肽的靶点和酸性鞘糖脂在开发抗真菌药物中的应用；同时还综述了中性鞘糖脂作为化妆品的保湿成分或保健食品的功能成分，在改善皮肤屏障功能和预防特应性皮炎中的重要作用的相关研究进展，尤其是来源于曲霉的中性鞘糖脂，可显著增强皮肤屏障功能，并可作为益生元预防肠道损伤；另外还探讨了曲霉尤其是米曲霉作为开发中性鞘糖脂生物资源的优势。     

皮肤真菌微生态研究进展

随着近年来分子学技术的发展,高通量测序和宏基因组学技术为研究人体皮肤微生态提供了可能。皮肤微生态的变化与银屑病、特应性皮炎、痤疮和慢性伤口等多种炎症性和感染性疾病的发生和发展相关。真菌成分在皮肤中含量远低于细菌,但会影响很多皮肤疾病和机会性感染的发生,因而皮肤微生态中真菌的构成开始逐渐引起人们重视。本文将就近年皮肤真菌微生态研究方法学以及其与皮肤疾病的关系的研究进展进行综述。     

Nigrospora 属真菌化学成分及生物活性研究进展CSCD

Nigrospora属真菌是常见的药用动植物内生真菌,其次级代谢产物结构多样且生物活性显著,是药用活性物质的重要来源。本文对1997年至2021年报道的Nigrospora属真菌化学成分及其生物活性首次进行了系统综述,涵盖聚酮、蒽醌、萜、甾体和生物碱等199个化合物,并总结其抗菌、抗氧化、抗病毒、抗糖尿病和抗肿瘤等生物活性,以期为该属真菌药用成分的深度开发提供参考。     

Therapeutic Efficacy and Immunological Response of CCL5 Antagonists in Models of Contact Skin Reaction

Skin-infiltrating T-cells play a predominant role in allergic and inflammatory skin diseases such as atopic dermatitis, psoriasis and allergic contact dermatitis. These T-cells are attracted by several chemotactic factors including the chemokine CCL5/RANTES, a CC chemokine inducing both the migration and activation of specific leukocyte subsets. CCL5 has been found to be associated with various cell-mediated hypersensitive disorders such as psoriasis, atopic dermatitis and irritant contact dermatitis. We have used two antagonists, the first, Met-CCL5, a dual CCR1/CCR5 antagonist and the second, a variant in which GAG binding is abrogated, ⁴⁴AANA⁴⁷-CCL5, which acts as a dominant negative inhibitor of CCL5. The antagonists were tested in two models of contact skin reaction. The first, irritant contact dermatitis (ICD) is a pathological non-specific inflammatory skin condition arising from the release of pro-inflammatory cytokines by keratinocytes in response to haptens, usually chemicals. The second, contact hypersensitivity (CHS) is a T-cell dependent model, mimicking in part the T-cell-mediated skin diseases such as psoriasis. In both models, the CCL5 antagonists showed therapeutic efficacy by reducing swelling by 50% as well as the reduction of soluble mediators in homogenates derived from challenged ears. These results demonstrate that blocking the receptor or the ligand are both effective strategies to inhibit skin inflammation.     

Total and specific serum IgE decreases with age in patients with allergic rhinitis,asthma and insect allergy but not in patients with atopic dermatitis

Concerning allergic diseases, the incidence of allergic symptoms, as well as their severity, seems to decrease with age. The decline of onset of allergic symptoms observed in ageing might result from a decrease of serum total and specific IgE. Atopic disorders are complex diseases that involve interactions among several physiological systems, e.g. skin, lung, mucosae, and the immune system. It was the aim of this study to compare the effects of age on total and specific IgE in patients with atopic dermatitis (AD), allergic rhinitis or asthma, and insect allergy, respectively.     

A novel organogermanium protected atopic dermatitis induced by oxazolone

Atopic dermatitis (AD) is a chronic inflammatory disease of the skin that is often associated with other atopic diseases, such as asthma and allergic rhinitis. Although topical steroids have widely been prescribed for patients with AD, skin abnormalities are frequently observed after prolonged steroid treatment. In this study, a novel water-soluble organogermanium compound (Ge-Vit) was prepared because organogermanium is a known INF-γ inducer. The Ge-Vit treatment decreased the basal TEWL and IgE production and attenuated the disruption of the skin barrier function in a murine model of chronic contact dermatitis. The histological examination further supported the anti-AD activities. These results suggested that Ge-Vit can be a useful drug candidate for treating atopic dermatitis.     

The filaggrin story: novel insights into skin-barrier function and disease

Recent reports have uncovered the key role of the protein filaggrin in maintaining an effective skin barrier against the external environment. Loss-of-function mutations in the profilaggrin gene (FLG) are common and are present in up to 10% of the population. These mutations are the cause of the semi-dominant skin-scaling disorder ichthyosis vulgaris and are a major risk factor for the development of atopic dermatitis. The discovery of these mutations also provides new data concerning the genetics of atopic asthma as well as intriguing insight into disease mechanisms of systemic allergies involving antigen exposure in skin with defective barrier function. Collectively, these novel findings have significant implications for the classification and future clinical management of patients with atopic and allergic diseases.     

Die Genetik atopischer Erkrankungen

Allergic disorders (atopic dermatitis, asthma, hay fever) are common chronic inflammatory diseases of the skin and airways that are often associated with allergies (formation of specific IgE antibodies) to environmental allergens. They are complex genetic diseases, so that both genetic and environmental factors are involved in their causation. Most of the research effort devoted to the search for genes that might be responsible has so far focused on the mechanisms behind the immune response. More recent work on gene identification, however, documents the decisive importance of epithelial barrier defects in the pathogenesis of AD and allergic airways disease. These findings represent an important milestone in unraveling the genetic mechanisms underlying these complex diseases and allow new insight into the molecular mechanisms that lead illnesses to develop. In addition, they might point the way to novel preventive and therapeutic strategies for atopic disorders.     

Skin and environment

The human skin is one of the major human organs in perpetual interaction with environmental factors. Permanent micro-aggressions by light, mechanical factors or chemical factors are useful for the maintenance of healthy skin. For example light is necessary for vitamin D synthesis and for the control of skin inflammation. If the aggression is too strong, repair mechanisms are involved such as wound healing or DNA repair. Accumulation of aggressions could induce acute or chronic diseases such as sunburn, photoageing or skin carcinoma. On specific individuals with genetic predisposition environmental aggressions can induce frequent diseases such as atopic dermatitis, present in 20% of children or psoriasis, present in 2-3% of the European population. Chemical aggressions are responsible for irritant dermatitis or allergic dermatitis, which are among the most frequent professional diseases. Aggression by UV light is one of the best examples of the interaction between environment and health. At a low dose UV light is very good for the health. At a high dose it is responsible for photoageing and skin carcinoma. To improve the control of environmental factors important for health, two approaches are essential: 1) research into epidemiology to discover the causal relationships and into biology to discover the mechanisms involved; 2) education from childhood to explain the results of research and to propose effective behaviours. For each aggression individuals at risk have to be identified.     

Thematic review series: skin lipids. Peroxisome proliferator-activated receptors and liver X receptors in epidermal biology

The epidermis is a very active site of lipid metabolism, and all peroxisome proliferator-activated receptor (PPAR) and liver X receptor (LXR) isoforms are expressed in the epidermis. Activation of PPARalpha, -beta/delta, or -gamma or LXRs stimulates keratinocyte differentiation. Additionally, activation of these receptors also improves permeability barrier homeostasis by a number of mechanisms, including stimulating epidermal lipid synthesis, increasing lamellar body formation and secretion, and increasing the activity of enzymes required for the extracellular processing of lipids in the stratum corneum, leading to the formation of lamellar membranes that mediate permeability barrier function. The stimulation of keratinocyte differentiation and permeability barrier formation also occurs during fetal development, resulting in accelerated epidermal development. PPAR and LXR activation regulates keratinocyte proliferation and apoptosis, and studies have shown that these receptors play a role in cutaneous carcinogenesis. Lastly, PPAR and LXR activation is anti-inflammatory, reducing inflammation in animal models of allergic and irritant contact dermatitis. Because of their broad profile of beneficial effects on skin homeostasis, PPAR and LXR have great potential to serve as drug targets for common skin diseases such as psoriasis, atopic dermatitis, and skin cancer.     

Allergen-Induced Dermatitis Causes Alterations in Cutaneous Retinoid-Mediated Signaling in Mice

Nuclear receptor-mediated signaling via RARs and PPARδ is involved in the regulation of skin homeostasis. Moreover, activation of both RAR and PPARδ was shown to alter skin inflammation. Endogenous all-trans retinoic acid (ATRA) can activate both receptors depending on specific transport proteins: Fabp5 initiates PPARδ signaling whereas Crabp2 promotes RAR signaling. Repetitive topical applications of ovalbumin (OVA) in combination with intraperitoneal injections of OVA or only intraperitoneal OVA applications were used to induce allergic dermatitis. In our mouse model, expression of IL-4, and Hbegf increased whereas expression of involucrin, Abca12 and Spink5 decreased in inflamed skin, demonstrating altered immune response and epidermal barrier homeostasis. Comprehensive gene expression analysis showed alterations of the cutaneous retinoid metabolism and retinoid-mediated signaling in allergic skin immune response. Notably, ATRA synthesis was increased as indicated by the elevated expression of retinaldehyde dehydrogenases and increased levels of ATRA. Consequently, the expression pattern of genes downstream to RAR was altered. Furthermore, the increased ratio of Fabp5 vs. Crabp2 may indicate an up-regulation of the PPARδ pathway in allergen-induced dermatitis in addition to the altered RAR signaling. Thus, our findings suggest that ATRA levels, RAR-mediated signaling and signaling involved in PPARδ pathways are mainly increased in allergen-induced dermatitis and may contribute to the development and/or maintenance of allergic skin diseases.     

Heavy metals in contact dermatitis: A review

Contact dermatitis is an inflammatory skin reaction caused by direct contact with chemical substances in the environment and can either be irritant or allergic in nature. The clinical symptoms of contact dermatitis, include local skin rash, itching, redness, swelling, and lesions. Nowadays, 15–20% of people have some degree of contact dermatitis, which can be more or less severe. Immune responses in allergic contact dermatitis (ACD) are due to the effects of cytokines and allergen-specific CD4⁺ and CD8⁺ T cells on the skin. Acids and alkalis such as drain cleaners, plants such as poinsettias, hair colors, and nail polish remover, are all prominent causes of irritant contact dermatitis (ICDs). Heavy metals are metallic elements with a high atomic weight that are hazardous in low quantities and are known to cause dermatitis after systemic or local exposure. Nickel (Ni), chromium (Cr), lead (Pb), and copper (Cu) are among the most common heavy metals used in various industries. Metal allergies may cause ACD and also systemic contact dermatitis (SCD). Contact dermatitis is detected by laboratory tests such as patch testing, lymphocyte stimulation test (LST), and evaluation of cytokine production by primary cultures of peripheral blood mononuclear cells. This article presents an update on the epidemiological and clinical characteristics of ACD and SCD caused by three heavy metals (Cr, Cu, and Pb). Ni is not discussed due to recent coverage. Furthermore, the effects of contact sensitivity to some other heavy metals, such as gold (Au), cobalt (Co), palladium (Pd), and mercury (Hg) are discussed.