Charli Kruse scite author profile

Fish skin is a multi-purpose tissue that serves numerous vital functions including chemical and physical protection, sensory activity, behavioural purposes or hormone metabolism. Further, it is an important first-line defense system against pathogens, as fish are continuously exposed to multiple microbial challenges in their aquatic habitat. Fish skin excels in highly developed antimicrobial features, many of which have been preserved throughout evolution, and infection defense principles employed by piscine skin are still operative in human skin. This review argues that it is both rewarding and important for investigative dermatologists to revive their interest in fish skin biology, as it provides insights into numerous fundamental issues that are of major relevance to mammalian skin. The basic molecular insights provided by zebrafish in vivo-genomics for genetic, regeneration and melanoma research, the complex antimicrobial defense systems of fish skin and the molecular controls of melanocyte stem cells are just some of the fascinating examples that illustrate the multiple potential uses of fish skin models in investigative dermatology. We synthesize the essentials of fish skin biology and highlight selected aspects that are of particular comparative interest to basic and clinically applied human skin research.

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Antimicrobial Peptides (AMPs) from Fish Epidermis: Perspectives for Investigative Dermatology

Rakers

Niklasson

Steinhagen³

et al. 2013

Journal of Investigative Dermatology

116

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Mammalian and fish skin share protective activities against environments that are rich in infectious agents. Fish epidermis is endowed with an extrinsic barrier consisting of a mucus layer and antimicrobial peptides (AMPs). These operate together as a protective chemical shield. As these AMPs are evolutionarily well preserved and also found in higher vertebrate skin (including human epidermis), fish skin offers a unique opportunity to study the origins of innate antimicrobial defense systems. Furthermore, the broad spectrum of fish mucus antimicrobial activities renders piscine AMPs interesting to investigative dermatology, as these may become exploitable for various indications in clinical dermatology. Therefore, this article aims at casting light on fish mucus, the evolutionary relationship between human and fish AMPs, and the latter's antibacterial, antifungal, and even antiviral activities. Moreover, we develop dermatological lessons from, and sketch potential future clinical applications of, fish mucus and piscine AMPs.

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Nestin in Human Skin: Exclusive Expression in Intramesenchymal Skin Compartments and Regulation by Leptin

Tiede

Kloepper

Ernst

et al. 2009

Journal of Investigative Dermatology

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Cutaneous nestin+ cells are of substantial interest in regenerative medicine. However, the location of nestin+ cells in situ remains controversial. We therefore sought to determine their location in female human scalp skin, using stringently controlled immunohistochemical techniques, Western blot analysis, and in situ hybridization and complementing those techniques with relative and quantitative reverse transcriptase-PCR of enzymatically digested or laser-capture microdissected human hair follicle (HF) compartments. We show here that the immunoreactivity (IR) patterns obtained with anti-nestin antibodies are highly dependent on the tissue-fixation and immunohistochemical methods used. NESTIN mRNA could not be detected within HF-associated epithelial cells in situ or in RNA extracts of the microdissected HF epithelium. Instead, NESTIN transcripts were found only in intramesenchymal skin compartments. Individual cells showing both, specific nestin IR and NESTIN mRNA were detectable in the connective-tissue sheaths of human HFs, sebaceous and sweat glands. Moreover, stimulation of organ-cultured human scalp skin with the adipokine leptin increased the number of nestin+ cells in these intramesenchymal skin locations, whereas no specific nestin IR could be induced by leptin within the HF epithelium, including the bulge. Therefore, nestin expression at the gene and protein levels in human scalp skin is restricted to the periappendage mesenchyme and can be stimulated by leptin.

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Charli Kruse

Hair follicle stem cells: Walking the maze

‘Fish matters’: the relevance of fish skin biology to investigative dermatology

Antimicrobial Peptides (AMPs) from Fish Epidermis: Perspectives for Investigative Dermatology

Nestin in Human Skin: Exclusive Expression in Intramesenchymal Skin Compartments and Regulation by Leptin

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