Agnes S Klar1,2, Katarzyna Michalak3,4, Sophie Böttcher-Haberzeth5,4, Ernst Reichmann3,4, Martin Meuli5,4, Thomas Biedermann3,4. 1. Tissue Biology Research Unit, Department of Surgery, University Children's Hospital Zurich, Zurich, Switzerland. agnes.klar@kispi.uzh.ch. 2. Children's Research Center, University Children's Hospital Zurich, Zurich, Switzerland. agnes.klar@kispi.uzh.ch. 3. Tissue Biology Research Unit, Department of Surgery, University Children's Hospital Zurich, Zurich, Switzerland. 4. Children's Research Center, University Children's Hospital Zurich, Zurich, Switzerland. 5. Department of Surgery, University Children's Hospital Zurich, Zurich, Switzerland.
Abstract
AIMS AND OBJECTIVES: The use of autologous tissue-engineered skin substitutes is a promising approach to cover large skin defects in patients. Preclinical investigation is pivotal to test and improve the quality of these bio-engineered substitutes. In the skin, the epidermis, formed mainly by keratinocytes, provides the first physical barrier protecting from the environment. Proper keratinocyte differentiation and, thus, formation of a stratified epidermis is essential for this function. Keratins, the main structural support of keratinocytes, play a vital role regarding differentiation of keratinocytes. Here, we examined the expression pattern of a recently described keratinocyte differentiation marker, namely Keratin 24, in our skin substitutes. MATERIALS AND METHODS: Human epidermal keratinocytes, melanocytes, dermal fibroblasts, palmar fibroblasts or sweat gland cells were used to prepare skin substitutes. Fibroblast-containing collagen hydrogels were prepared, and keratinocytes or sweat gland cells and melanocytes were seeded onto the hydrogels. The generated tissue-engineered dermo-epidermal skin analogs were transplanted onto full-thickness skin wounds created on the back of immuno-incompetent rats. The skin substitutes were excised at different time points and histologically examined with regard to Keratin 24 expression. RESULTS: We observed the expression of Keratin 24 in keratinocytes of the upper stratum spinosum of the epidermis. In particular, we observed an intensified expression of Keratin 24 13 weeks after transplantation compared to 4 weeks after transplantation. Importantly, we noticed a markedly higher presence of Keratin 24 in more spinous layers if we used palmar fibroblasts or sweat gland cells in our skin substitutes compared non-palmar fibroblasts or epidermal keratinocytes. CONCLUSION: Our observations prove that the keratinocyte differentiation marker Keratin 24 is expressed in our dermo-epidermal skin substitutes in a normal pattern. This highlights that our bio-engineered skin analogs mature and reach homeostasis in an in vivo assay. These findings harbor favorable implications regarding future clinical application.
AIMS AND OBJECTIVES: The use of autologous tissue-engineered skin substitutes is a promising approach to cover large skin defects in patients. Preclinical investigation is pivotal to test and improve the quality of these bio-engineered substitutes. In the skin, the epidermis, formed mainly by keratinocytes, provides the first physical barrier protecting from the environment. Proper keratinocyte differentiation and, thus, formation of a stratified epidermis is essential for this function. Keratins, the main structural support of keratinocytes, play a vital role regarding differentiation of keratinocytes. Here, we examined the expression pattern of a recently described keratinocyte differentiation marker, namely Keratin 24, in our skin substitutes. MATERIALS AND METHODS:Human epidermal keratinocytes, melanocytes, dermal fibroblasts, palmar fibroblasts or sweat gland cells were used to prepare skin substitutes. Fibroblast-containing collagen hydrogels were prepared, and keratinocytes or sweat gland cells and melanocytes were seeded onto the hydrogels. The generated tissue-engineered dermo-epidermal skin analogs were transplanted onto full-thickness skin wounds created on the back of immuno-incompetent rats. The skin substitutes were excised at different time points and histologically examined with regard to Keratin 24 expression. RESULTS: We observed the expression of Keratin 24 in keratinocytes of the upper stratum spinosum of the epidermis. In particular, we observed an intensified expression of Keratin 24 13 weeks after transplantation compared to 4 weeks after transplantation. Importantly, we noticed a markedly higher presence of Keratin 24 in more spinous layers if we used palmar fibroblasts or sweat gland cells in our skin substitutes compared non-palmar fibroblasts or epidermal keratinocytes. CONCLUSION: Our observations prove that the keratinocyte differentiation marker Keratin 24 is expressed in our dermo-epidermal skin substitutes in a normal pattern. This highlights that our bio-engineered skin analogs mature and reach homeostasis in an in vivo assay. These findings harbor favorable implications regarding future clinical application.
Authors: Agnieszka S Klar; Sinan Güven; Thomas Biedermann; Joachim Luginbühl; Sophie Böttcher-Haberzeth; Claudia Meuli-Simmen; Martin Meuli; Ivan Martin; Arnaud Scherberich; Ernst Reichmann Journal: Biomaterials Date: 2014-03-27 Impact factor: 12.479
Authors: Sophie Böttcher-Haberzeth; Thomas Biedermann; Luca Pontiggia; Erik Braziulis; Clemens Schiestl; Bart Hendriks; Ossia M Eichhoff; Daniel S Widmer; Claudia Meuli-Simmen; Martin Meuli; Ernst Reichmann Journal: J Invest Dermatol Date: 2012-09-13 Impact factor: 8.551
Authors: Eli Sprecher; Peter Itin; Neil V Whittock; John A McGrath; Rudolph Meyer; John J DiGiovanna; Sherri J Bale; Jouni Uitto; Gabriele Richard Journal: J Invest Dermatol Date: 2002-09 Impact factor: 8.551
Authors: Katarzyna Michalak-Micka; Dominic Rütsche; Luca Mazzone; Vanessa L Büchler; Ueli Moehrlen; Agnes S Klar; Thomas Biedermann Journal: Front Bioeng Biotechnol Date: 2022-09-15
Authors: Marketa Bacakova; Julia Pajorova; Antonin Broz; Daniel Hadraba; Frantisek Lopot; Anna Zavadakova; Lucie Vistejnova; Milan Beno; Ivan Kostic; Vera Jencova; Lucie Bacakova Journal: Int J Nanomedicine Date: 2019-07-08