Comparative immunohistochemical analysis of inflammatory cytokines in distinct subtypes of Sweet syndrome.

Background: A dysregulated immune response has been implicated in Sweet syndrome (SS) pathogenesis; however, cytokine profiles across different conditions associated with SS - including adult-onset immunodeficiency (AOID) due to anti-interferon (IFN)-γ autoantibodies - remain unknown. Objective: To investigate alterations in inflammatory cytokines in skin lesions of distinct subtypes of SS. Methods: Skin biopsies were collected from 42 AOID- and 52 non-AOID-associated SS patients and 18 healthy controls. The comparative immunohistochemical study was conducted using monoclonal antibodies against interleukin (IL)-1ß, IL-6, IL-17, IFN-γ, and tumor necrosis factor-α on paraffin-embedded sections. The quantitative percentage positivity and intensity were calculated using computer-based image analysis. Results: The results showed stronger and more diffuse dermal immunoreactivity for IFN-γ and IL-17 in the AOID-associated (p < 0.001 and p < 0.001, respectively) and non-AOID-associated SS (p < 0.001 and p < 0.001, respectively) groups. However, no significant differences in the levels of these two cytokines were observed between the AOID- and non-AOID-associated SS groups. Increased expression of IFN-γ together with IL-17 was also noted in almost all subtypes among non-AOID-associated SS. Conclusions: These results demonstrate that IFN-γ and IL-17 are implicated in immunopathology of all SS subtypes, including AOID-associated SS, despite the presence of anti-IFN-γ autoantibodies.

Sporothrix schenckii sensu stricto related to zoonotic transmission in Thailand.

Two sporotrichosis cases were related to zoonotic transmission as their cats were diagnosed of feline sporotrichosis. The result of fungus culture as dimorphic fungi and flower-like arrangement of typical S. schenckii complex morphology confirms the diagnosis. The species were identified by Polymerase Chain Reaction (PCR) using species-specific primers of calmodulin gene (CAL). The result showed that etiological agents of these two cases in Northern Thailand are S. schenckii sensu stricto. One case was successfully treated with daily dose of 250 mg terbinafine, and the other was treated with daily dose of 100 mg itraconazole with an excellent outcome. 2012 Elsevier Ltd. All rights reserved.

Sweet syndrome as a cutaneous manifestation in a patient with Erysipelothrix rhusiopathiae bacteremia: A case report.

Erysipelothrix rhusiopathiae is a gram-positive bacillus causing three clinical syndromes in humans, including localized cutaneous infection, diffuse cutaneous form, and systemic infection. Various skin lesions in systemic form have been reported; however, no comprehensive study has been conducted. Here we report a case of a 60-year-old woman who suffered from E. rhusiopathiae bacteremia with distinct generalized annular purplish plaques. Negative microbiological studies of the lesional skin sample combined with the histopathological study showing diffuse neutrophilic infiltration confirm the diagnosis of Sweet syndrome. This study documents Sweet syndrome as one of the cutaneous manifestations in systemic E. rhusiopathiae infection.

Intractable Itch in Atopic Dermatitis: Causes and Treatments.

Itch or pruritus is the hallmark of atopic dermatitis and is defined as an unpleasant sensation that evokes the desire to scratch. It is also believed that itch is a signal of danger from various environmental factors or physiological abnormalities. Because histamine is a well-known substance inducing itch, H1-antihistamines are the most frequently used drugs to treat pruritus. However, H1-antihistamines are not fully effective against intractable itch in patients with atopic dermatitis. Given that intractable itch is a clinical problem that markedly decreases quality of life, its treatment in atopic dermatitis is of high importance. Histamine-independent itch may be elicited by various pruritogens, including proteases, cytokines, neuropeptides, lipids, and opioids, and their cognate receptors, such as protease-activated receptors, cytokine receptors, Mas-related G protein-coupled receptors, opioid receptors, and transient receptor potential channels. In addition, cutaneous hyperinnervation is partly involved in itch sensitization in the periphery. It is believed that dry skin is a key feature of intractable itch in atopic dermatitis. Treatment of the underlying conditions that cause itch is necessary to improve the quality of life of patients with atopic dermatitis. This review describes current insights into the pathophysiology of itch and its treatment in atopic dermatitis.

Exogenous factors in the pathogenesis of atopic dermatitis: Irritants and cutaneous infections.

Atopic dermatitis (AD) is a chronic relapsing inflammatory cutaneous disease that is often associated with other atopic symptoms, such as food allergy, allergic rhinitis and asthma, leading to significant morbidity and healthcare costs. The pathogenesis of AD is complicated and multifactorial. Although the aetiology of AD remains incompletely understood, recent studies have provided further insight into AD pathophysiology, demonstrating that the interaction among genetic predisposition, immune dysfunction and environmental provocation factors contributes to its development. However, the increasing prevalence of AD suggests that environmental factors such as irritation and cutaneous infection play a crucial role in triggering and/or aggravating the disease. Of note, AD skin is susceptible to bacterial, fungal and viral infections, and microorganisms may colonize the skin and aggravate AD symptoms. Overall, understanding the mechanisms by which these risk factors affect the cutaneous immunity of patients with AD is of great importance for developing a precision medicine approach for treatment. This review summarizes recent developments in exogenous factors involved in the pathogenesis of AD, with special emphasis on irritants and microbial infections.

Degos-like lesions as a cutaneous manifestation of cytomegalovirus infection: A rare and serious complication in a patient with drug-induced hypersensitivity syndrome.

Cytomegalovirus causes a myriad of clinical features, potentially affecting any organ system, significantly increasing morbidity and even mortality. Vascular endothelial cell infection by cytomegalovirus has been implicated in the development of vasculopathy, possibly accounting for the clinical association between cytomegalovirus and vascular thrombosis. In contrast with visceral organ involvement, the cutaneous manifestations of cytomegalovirus are variable and rarely described. Malignant atrophic papulosis, commonly known as Degos disease, is an unusual small vessel arteriopathy with a pathognomonic clinical appearance of atrophic porcelain-white central papules surrounded by telangiectatic erythema. As with the arterial occlusive process, Degos disease may be idiopathic or secondary to autoimmune disorders or viral infection. All in all, cytomegalovirus-related Degos-like presentation has never been described. This report describes a case in which disseminated cytomegalovirus disease developed 4 weeks after the onset of drug-induced hypersensitivity syndrome with prominent Degos-like skin lesions. Our case highlights a rare example of Degos-like lesions occurring due to cytomegalovirus disease and emphasizes the importance of early recognition of the characteristic cutaneous eruption as a diagnostic clue leading to the prompt management of this life-threatening infection.

Role of Antimicrobial Peptides in Skin Barrier Repair in Individuals with Atopic Dermatitis.

Atopic dermatitis (AD) is a common chronic inflammatory skin disease that exhibits a complex interplay of skin barrier disruption and immune dysregulation. Patients with AD are susceptible to cutaneous infections that may progress to complications, including staphylococcal septicemia. Although most studies have focused on filaggrin mutations, the physical barrier and antimicrobial barrier also play critical roles in the pathogenesis of AD. Within the physical barrier, the stratum corneum and tight junctions play the most important roles. The tight junction barrier is involved in the pathogenesis of AD, as structural and functional defects in tight junctions not only disrupt the physical barrier but also contribute to immunological impairments. Furthermore, antimicrobial peptides, such as LL-37, human b-defensins, and S100A7, improve tight junction barrier function. Recent studies elucidating the pathogenesis of AD have led to the development of barrier repair therapy for skin barrier defects in patients with this disease. This review analyzes the association between skin barrier disruption in patients with AD and antimicrobial peptides to determine the effect of these peptides on skin barrier repair and to consider employing antimicrobial peptides in barrier repair strategies as an additional approach for AD management.

Involvement of the lipoprotein receptor LRP1 in AMP-IBP5-mediated migration and proliferation of human keratinocytes and fibroblasts.

BACKGROUND: Antimicrobial peptide derived from insulin-like growth factor binding protein-5 (AMP-IBP5) is a potent antimicrobial agent that possesses various immunomodulatory activities. The parent protein of AMP-IBP5, IGFBP-5, has been shown to exert its effects via an insulin-like growth factor-1 receptor-independent mechanism, including binding to multifunctional low-density lipoprotein receptor-related protein 1 (LRP1), which contributes to several biological processes involved in skin wound healing. OBJECTIVES: To investigate whether LRP1 is involved in AMP-IBP5-induced migration and proliferation of human epidermal keratinocytes and dermal fibroblasts. METHODS: The mRNA expression of LRP1 and IGFBP-5 was assessed by quantitative real-time PCR, whereas Western blotting was used to evaluate the protein expression. Production of cytokines was determined by ELISA. Cell migration was measured by the scratch wound assay, whereas cell proliferation was analyzed using the BrdU labeling assay. MAPK activation was determined by Western blotting. RESULTS: We found that AMP-IBP5 markedly induced the migration and proliferation of keratinocytes and fibroblasts, and this effect was reversed by specific siRNA and neutralizing antibody targeting the LRP1 receptor. In addition, LRP1 was upregulated by lipopolysaccharide, flagellin and AMP-IBP5 in keratinocytes and fibroblasts. LRP1 knockdown also inhibited MAPK pathway activation, which was required for AMP-IBP5-mediated cell migration and proliferation, as evidenced by the specific inhibitors for extracellular signal-regulated kinase, c-Jun N-terminal kinase and p38. CONCLUSIONS: Our results suggest that LRP1 expressed in human epidermal keratinocytes and dermal fibroblasts contributes to AMP-IBP5-mediated cell migration and proliferation, supporting its crucial role in cutaneous wound healing process.

Tissue-specific Regulation of Innate Immune Responses by Human Cathelicidin LL-37.

Cathelicidins form one of the major families of antimicrobial peptides and have been identified in many vertebrates, including humans. LL-37, the only human member of the cathelicidin family, is detected in most sites of the human body that is normally exposed to microbes, including the epithelial lining of the skin, gastrointestinal tract, genitourinary tract and lungs. This peptide is also expressed by a variety of epithelial cells and immune cells, such as neutrophils, monocytes and mast cells. LL-37 has emerged as a key component of innate immunity due to its direct antimicrobial activity against a broad spectrum of invading pathogens. It also exhibits diverse immunomodulatory functions by activating both pro- and anti-inflammatory mediators; inducing cell migration, proliferation and differentiation; and regulating apoptosis of epithelial cells and neutrophils. Given that the phenotypic and functional properties of immune compartments are different and significantly impacted by the anatomical sites, tissue-specific factors of host origin and microbial communities play important roles in the regulation of LL-37. This review summarizes the expression and biological functions of LL-37 and discusses its significant roles in the innate immune system based on its anatomical distribution.

Innate defense regulator IDR-1018 activates human mast cells through G protein-, phospholipase C-, MAPK- and NF-ĸB-sensitive pathways.

Host defense (antimicrobial) peptides not only display antimicrobial activities against numerous pathogens but also exert a broader spectrum of immune-modulating functions. Innate defense regulators (IDRs) are a class of host defense peptides synthetically developed from natural or endogenous cationic host defense peptides. Of the IDRs developed to date, IDR-1018 is more efficient not only in killing bacteria but also in regulating the various functions of macrophages and neutrophils and accelerating the wound healing process. Because mast cells intimately participate in wound healing and a number of host defense peptides involved in wound healing are also known to activate mast cells, this study aimed to investigate the effects of IDR-1018 on mast cell activation. Here, we showed that IDR-1018 induced the degranulation of LAD2 human mast cells and caused their production of leukotrienes, prostaglandins and various cytokines and chemokines, including granulocyte-macrophage colony-stimulating factor, interleukin-8, monocyte chemoattractant protein-1 and -3, macrophage-inflammatory protein-1α and -1ß, and tumor necrosis factor-α. Furthermore, IDR-1018 increased intracellular calcium mobilization and induced mast cell chemotaxis. The mast cell activation was markedly suppressed by pertussis toxin, U-73122, U0126, SB203580, JNK inhibitor II, and NF-κB activation inhibitor II, suggesting the involvement of G-protein, phospholipase C, ERK, p38, JNK and NF-κB pathways, respectively, in IDR-1018-induced mast cell activation. Notably, we confirmed that IDR-1018 caused the phosphorylation of MAPKs and IκB. Altogether, the current study suggests a novel immunomodulatory role of IDR-1018 through its ability to recruit and activate human mast cells at the sites of inflammation and wounds. HIGHLIGHTS: We report that IDR-1018 stimulates various functions of human mast cells. IDR-1018-induced mast cell activation is mediated through G protein, PLC, MAPK and NF-κB pathways. IDR-1018 will be a useful therapeutic agent for wound healing.

The antimicrobial peptide derived from insulin-like growth factor-binding protein 5, AMP-IBP5, regulates keratinocyte functions through Mas-related gene X receptors.

BACKGROUND: In addition to their microbicidal properties, host defense peptides (HDPs) display various immunomodulatory functions, including keratinocyte production of cytokines/chemokines, proliferation, migration and wound healing. Recently, a novel HDP named AMP-IBP5 (antimicrobial peptide derived from insulin-like growth factor-binding protein 5) was shown to exhibit antimicrobial activity against numerous pathogens, even at concentrations comparable to those of human ß-defensins and LL-37. However, the immunomodulatory role of AMP-IBP5 in cutaneous tissue remains unknown. OBJECTIVES: To investigate whether AMP-IBP5 triggers keratinocyte activation and to clarify its mechanism. METHODS: Production of cytokines/chemokines and growth factors was determined by appropriate ELISA kits. Cell migration was assessed by in vitro wound closure assay, whereas cell proliferation was analyzed using BrdU incorporation assay complimented with XTT assay. MAPK and NF-κB activation was determined by Western blotting. Intracellular cAMP levels were assessed using cAMP enzyme immunoassay kit. RESULTS: Among various cytokines/chemokines and growth factors tested, AMP-IBP5 selectively increased the production of IL-8 and VEGF. Moreover, AMP-IBP5 markedly enhanced keratinocyte migration and proliferation. AMP-IBP5-induced keratinocyte activation was mediated by Mrg X1-X4 receptors with MAPK and NF-κB pathways working downstream, as evidenced by the inhibitory effects of MrgX1-X4 siRNAs and ERK-, JNK-, p38- and NF-κB-specific inhibitors. We confirmed that AMP-IBP5 indeed induced MAPK and NF-κB activation. Furthermore, AMP-IBP5-induced VEGF but not IL-8 production correlated with an increase in intracellular cAMP. CONCLUSIONS: Our findings suggest that in addition to its antimicrobial function, AMP-IBP5 might contribute to wound healing process through activation of keratinocytes.

Friends or Foes? Host defense (antimicrobial) peptides and proteins in human skin diseases.

Host defense peptides/proteins (HDPs), also known as antimicrobial peptides/proteins (AMPs), are key molecules in the cutaneous innate immune system. AMPs/HDPs historically exhibit broad-spectrum killing activity against bacteria, enveloped viruses, fungi and several parasites. Recently, AMPs/HDPs were shown to have important biological functions, including inducing cell proliferation, migration and differentiation; regulating inflammatory responses; controlling the production of various cytokines/chemokines; promoting wound healing; and improving skin barrier function. Despite the fact that AMPs/HDPs protect our body, several studies have hypothesized that these molecules actively contribute to the pathogenesis of various skin diseases. For example, AMPs/HDPs play crucial roles in the pathological processes of psoriasis, atopic dermatitis, rosacea, acne vulgaris, systemic lupus erythematosus and systemic sclerosis. Thus, AMPs/HDPs may be a double-edged sword, promoting cutaneous immunity while simultaneously initiating the pathogenesis of some skin disorders. This review will describe the most common skin-derived AMPs/HDPs (defensins, cathelicidins, S100 proteins, ribonucleases and dermcidin) and discuss the biology and both the positive and negative aspects of these AMPs/HDPs in skin inflammatory/infectious diseases. Understanding the regulation, functions and mechanisms of AMPs/HDPs may offer new therapeutic opportunities in the treatment of various skin disorders.

Angiogenic peptide (AG)-30/5C activates human keratinocytes to produce cytokines/chemokines and to migrate and proliferate via MrgX receptors.

BACKGROUND: In addition to their antimicrobial activities, antimicrobial peptides, also known as host defense peptides (HDPs) activate keratinocytes; promote wound healing; and improve the skin barrier. AG-30/5C is a novel angiogenic HDP that activates various functions of fibroblasts and endothelial cells, including cytokine/chemokine production and wound healing. OBJECTIVES: To investigate whether AG-30/5C activates human keratinocytes and to examine the underlying mechanisms. METHODS: Production of cytokines/chemokines was assessed by ELISA. Expression of Mas-related G-protein coupled receptors X (MrgXs) in keratinocytes was determined by real-time PCR and Western blot. MAPK and NF-κB activation was analysed by Western blot. Cell migration was assessed by chemotaxis microchamber and in vitro wound closure assay, whereas cell proliferation was analysed using an XTT assay. RESULTS: We found that AG-30/5C was more efficient than its parent peptide AG-30 in increasing the production of various cytokines/chemokines and promoting keratinocyte migration and proliferation. Furthermore, MrgX3 and MrgX4 receptors were constitutively expressed in keratinocytes at higher levels than MrgX1 and MrgX2, and were up-regulated upon stimulation with TLR ligands. Because MrgX3 and MrgX4 siRNAs suppressed AG-30/5C-mediated cytokine/chemokine production, keratinocyte migration and proliferation, we propose that AG-30/5C utilizes these MrgXs to stimulate keratinocytes. In addition, AG-30/5C-induced activation of keratinocytes was controlled by MAPK and NF-κB pathways, as evidenced by the inhibitory effects of ERK-, JNK-, p38- and NF-κB-specific inhibitors. Indeed, we confirmed that AG-30/5C enhanced phosphorylation of MAPKs and IκB. CONCLUSIONS: Our findings provide novel evidence that AG-30/5C may be a useful therapeutic agent for wound healing by activating human keratinocytes.