A comprehensive analysis of the COL29A1 gene does not support a role in eczema.

BACKGROUND: Based on a recent positional cloning approach, it was claimed that the collagen 29A1 gene (COL29A1), which encodes an epidermal collagen, represents a major risk gene for eczema underlying a previously reported linkage to chromosome 3q21. However, thus far, not a single replication attempt has been published, and no definitive functional data have been provided. OBJECTIVES: We aimed to determine whether COL29A1 polymorphisms contribute to eczema susceptibility and whether COL29A1 expression is altered in eczema. METHODS: We investigated the reported association of COL29A1 variants with eczema, subtypes of eczema, and eczema-related traits in 5 independent and large study populations comprehensively phenotyped for allergic diseases: a set of 1687 German patients with eczema and 2387 population control subjects, a collection of 274 German families with eczema-diseases children, a cross-sectional population of German children (n = 3099), the Swedish population-based birth cohort Children Allergy and Milieu in Stockholm, an Epidemiologic Study (BAMSE) (n = 2033), and the European cross-sectional Prevention of Allergy-Risk Factors for Sensitization Related to Farming and Anthroposophic Lifestyle (PARSIFAL) study (n = 3113). An additional set of 19 COL29A1 coding single nucleotide polymorphisms was analyzed in BAMSE and PARSIFAL. COL29A1 expression was investigated by using in situ hybridization. RESULTS: We found no evidence for a relationship between COL29A1 polymorphisms and eczema. The equivalence test rejected the hypothesis of association even excluding small effects. In situ hybridization carried out on biopsy specimens from lesional and nonlesional skin of patients with eczema and from healthy control subjects did not show any differences in the cellular distribution pattern of COL29A1 expression at the mRNA level. CONCLUSIONS: Our results suggest that COL29A1 is unlikely to contain genetic variants that have a major effect on eczema or atopy susceptibility.

The role of toll-like receptors in host defenses and their relevance to dermatologic diseases.

The family of toll-like receptors (TLRs) plays a central role in the cutaneous immune defense system. To date, different TLRs have been found on several major cell populations of the skin, such as keratinocytes, fibroblasts, antigen-presenting cells, and melanocytes. Activation of TLRs leads, via different intracellular signaling pathways, to the production of pro-inflammatory stimuli, and is considered a danger signal that should transform the skin in to the functional state of defense. However, TLRs have also been implicated in tissue homeostasis and renewal. Within the group of TLRs, two types have been identified: surface-expressed TLRs, which are predominantly active against bacterial cell wall compounds; and intracellular receptors, which preferentially recognize virus-associated pattern molecules. In addition, surface-expressed receptors trigger phagocytotic and maturation signals, while the intracellular TLRs lead to the induction of antiviral genes. Our review aims to outline the importance of TLRs in the pathogenesis of numerous skin diseases and the potential of TLR agonists as a treatment option for various skin diseases.

Double-stranded RNA induces an antiviral defense status in epidermal keratinocytes through TLR3-, PKR-, and MDA5/RIG-I-mediated differential signaling.

Emerging evidence suggests an important role for human epidermal keratinocytes in innate immune mechanisms against bacterial and viral skin infections. The proinflammatory effect of viral infections can be mimicked by double-stranded RNA (dsRNA). Herein, we demonstrate that keratinocytes express all known dsRNA sensing receptors at a constitutive and inducible level, and that they use several downstream signaling pathways leading to a broad pattern of gene expression, not only proinflammatory and immune response genes under the control of NF-kappaB, but also genes under transcriptional control of IRF3. As a consequence, dsRNA, a stimulus for TLR3, protein kinase R (PKR), and the RNA helicases retinoic acid-inducible gene I (RIG-I) and MDA5, induces a status of antiviral defense in keratinocytes. Using inhibitors for the various dsRNA signaling pathways and specific small interfering RNA for TLR3, RIG-I, and MDA5, we demonstrated that in human keratinocytes, TLR3 seems to be necessary for NF-kappaB but not for IRF3 activation, whereas RIG-I and MDA5 are crucial for IRF3 activation. PKR is essential for the dsRNA response in both signaling pathways and thus represents the central antiviral receptor for dsRNA stimulation. Moreover, human keratinocytes up-regulate TLR7, the receptor for single-stranded RNA, in response to stimulation with dsRNA, which renders keratinocytes functionally responsive to the TLR7 agonist gardiquimod, a member of the imidazoquinoline antiviral immune response modifier family. Thus, in addition to building a physical barrier against infectious pathogens, keratinocytes are specially equipped with a full antiviral defense program that enables them to efficiently target viral infections of the skin.

Toll-like receptors in dermatology.

The human skin represents the first line of defense against potentially hazardous environmental threats (ie, infection by microbes, such as viruses, bacteria, and fungi). To fulfill this crucial function and to maintain the integrity of the skin compartment, evolution has equipped the human immune system with a variety of sophisticated tools leading to an efficient defense system of responses to various infectious challenges. The role of the skin within the different defense lines is multifaceted. The central role of the immune defense system is performed by the group of "pathogen-associated pattern recognition receptors," among which the group of Toll-like receptors (TLRs) has evolved as the central family during the last years. Ten TLRs are identified in humans, all of which share similarities in their structure and function, but respond to different microbial components.

Various members of the Toll-like receptor family contribute to the innate immune response of human epidermal keratinocytes.

Toll-like receptors (TLRs) are important pattern recognition molecules that activate the nuclear factor (NF)-kappaB pathway leading to the production of antimicrobial immune mediators. As keratinocytes represent the first barrier against exogenous pathogens in human skin, we investigated their complete functional TLR1-10 expression profile. First, reverse transcription-polymerase chain reaction (PCR) analysis revealed a very similar pattern of TLR mRNA expression when comparing freshly isolated human epidermis and cultured primary human keratinocytes. Thus, further experiments were carried out with primary keratinocytes in comparison with the spontaneously immortalized human keratinocyte cell line HaCaT. The quantitative expression of TLR1-10 mRNA in real-time PCR of primary human keratinocytes and HaCaT cells was analysed. Both cell types constitutively expressed TLR2, TLR3, TLR5, and to a lesser extent TLR10. TLR4 was only found in HaCaT cells, TLR1 to a higher degree in primary keratinocytes. In line with this, LPS induced mRNA expression of CD14 and TLR4 only in HaCaT cells. After stimulation with various TLR ligands, the NF-kappaB-activated chemokine interleukin-8 (IL-8) was measured. In primary keratinocytes and HaCaT cells the TLR3 ligand poly (I:C) was the most potent stimulator of IL-8 secretion. The TLR ligands peptidoglycan, Pam3Cys and flagellin which bind to TLR2, TLR1/TLR2 heterodimer, and TLR5, respectively, also induced IL-8 secretion, whereas no IL-8 was induced by LPS, R-848, loxoribine and cytosine guanine dinucleotide-containing oligodeoxynucleotide. A corresponding pattern was found in the RelA NF-kappaB translocation assay after ligand stimulation of primary keratinocytes. These studies provide substantial evidence for a functional TLR expression and signalling profile of normal human keratinocytes contributing to the antimicrobial defence barrier of human skin.