Liliana Guerra

R-spondin1 is essential in sex determination, skin differentiation and malignancy

R-spondins are a recently characterized small family of growth factors. Here we show that human R-spondin1 (RSPO1) is the gene disrupted in a recessive syndrome characterized by XX sex reversal, palmoplantar hyperkeratosis and predisposition to squamous cell carcinoma of the skin. Our data show, for the first time, that disruption of a single gene can lead to complete female-to-male sex reversal in the absence of the testis-determining gene, SRY.

Cultivation of human keratinocyte stem cells: current and future clinical applications.

Cultured human keratinocytes have a wide spectrum of clinical applications. Clinical results reported by several investigators are, however, contradictory. In this review, the authors discuss the biological and surgical issues which play a key role in the clinical outcome of cultured epidermal autografts used for the treatment of massive full-thicknes burns. The importance of cultivation of epidermal stem cells and of their transplantation onto a wound bed prepared with donor dermis is emphasised. The paper also reviews recent data showing that: (i) cultured epidermal autografts bearing melanocytes can be used for the treatment of stable vitiligo; (ii) keratinocytes isolated from other lining epithelia, such as oral, urethral and corneal epithelia, can be cultivated and grafted onto patients suffering from disabling epithelial defects; (iii) keratinocyte stem cells can be stably transduced with retroviral vectors and are therefore attractive targets for the gene therapy of genodermatoses.

Toward Epidermal Stem Cell-Mediated ex Vivo Gene Therapy of Junctional Epidermolysis Bullosa

Junctional epidermolysis bullosa (JEB) is a group of severe, inherited skin diseases caused by mutations in the genes encoding laminin 5 or other components of the hemidesmosome. Since human epidermis is a self-renewing tissue, gene therapy of JEB requires the stable integration of the transgene into the genome of the epidermal stem cell. Human epidermal stem cells can indeed be cultivated and stably transduced with replication-defective retroviral vectors, allowing full phenotypic correction of the adhesion properties of JEB keratinocytes. Epidermal stem cells generate cohesive sheets of stratified epithelium suitable for the permanent coverage of massive skin defects, and genetically modified epidermal sheets maintain long-term expression of the transgene after transplantation on immunodeficient animals. Moreover, we have developed a clinical procedure that allows transplantation of cultured epidermal sheets on large body areas under local anesthesia and without cicatricial outcomes. Thus, (1) the possibility of cultivating lining epithelia, (2) the availability of noninvasive surgical procedures that allow the grafting of large skin areas, and (3) the demonstration of sustained transgene expression in vitro and in vivo by epidermal stem cells, prompt us to propose the implementation of a phase I/II clinical trial aimed at the ex vivo gene therapy of selected JEB patients. The aim of the trial is to validate the ex vivo procedure in a clinical setting, to prove its overall safety, and to analyze critical issues such as long-term survival of the genetically modified implant, immune response against the transgene product, and persistence of transgene expression at therapeutic levels.

Permanent repigmentation of piebaldism by erbium:YAG laser and autologous cultured epidermis

Background  Several surgical techniques have been proposed for the treatment of piebaldism. These procedures, however, are poorly suited for the treatment of large leucodermal lesions, can cause scars and require multiple donor sites. Recently, it has been reported that autologous cultured epidermis induces scarless repigmentation of large vitiligo lesions, using a single small donor site.