Sonia Carulli scite author profile

Junctional epidermolysis bullosa (JEB) is a severe and often lethal genetic disease caused by mutations in genes encoding the basement membrane component laminin-332. Surviving patients with JEB develop chronic wounds to the skin and mucosa, which impair their quality of life and lead to skin cancer. Here we show that autologous transgenic keratinocyte cultures regenerated an entire, fully functional epidermis on a seven-year-old child suffering from a devastating, life-threatening form of JEB. The proviral integration pattern was maintained in vivo and epidermal renewal did not cause any clonal selection. Clonal tracing showed that the human epidermis is sustained not by equipotent progenitors, but by a limited number of long-lived stem cells, detected as holoclones, that can extensively self-renew in vitro and in vivo and produce progenitors that replenish terminally differentiated keratinocytes. This study provides a blueprint that can be applied to other stem cell-mediated combined ex vivo cell and gene therapies.

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Closure of a Large Chronic Wound through Transplantation of Gene-Corrected Epidermal Stem Cells

Bauer

Koller

Murauer

et al. 2017

Journal of Investigative Dermatology

107

113

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Generalized junctional epidermolysis bullosa (JEB) is caused by mutations in LAMA3,LAMB3,or\ud LAMC2,which together encode laminin-332, a hetero-trimeric protein consisting ofa3,b3, andg2chain. In nonlethal generalized intermediate JEB, laminin-332 is highly reduced, and hemidesmosomes are rudimentary or completely absent, leading to blister formation within the lamina lucida of the basement membrane upon minor trauma. The resulting chronic skin wounds invariably develop recurrent infections and scarring, which greatly impair patients’ quality of life. We report on a patient in whom gene-corrected epidermal sheets were transplanted onto a large nonhealing epidermal ulceration following a good manufacturing practice protoco

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Long-Term Stability and Safety of Transgenic Cultured Epidermal Stem Cells in Gene Therapy of Junctional Epidermolysis Bullosa

et al. 2014

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SummaryWe report a long-term follow-up (6.5 years) of a phase I/II clinical trial envisaging the use of autologous genetically modified cultured epidermal stem cells for gene therapy of junctional epidermolysis bullosa, a devastating genetic skin disease. The critical goals of the trial were to evaluate the safety and long-term persistence of genetically modified epidermis. A normal epidermal-dermal junction was restored and the regenerated transgenic epidermis was found to be fully functional and virtually indistinguishable from a normal control. The epidermis was sustained by a discrete number of long-lasting, self-renewing transgenic epidermal stem cells that maintained the memory of the donor site, whereas the vast majority of transduced transit-amplifying progenitors were lost within the first few months after grafting. These data pave the way for the safe use of epidermal stem cells in combined cell and gene therapy for genetic skin diseases.

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Cell Surface Proteoglycans Syndecan-1 and -4 Bind Overlapping but Distinct Sites in Laminin α3 LG45 Protein Domain

Carulli

Beck

Dayan

et al. 2012

Journal of Biological Chemistry

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Background:The cell surface proteoglycans syndecan-1 and -4 interact with laminin 332 to participate in keratinocyte migration. Results: Syndecan-1 and -4 bind specific residues in the laminin 332 LG45 domain. Conclusion:The LG45 domain encompasses a major heparan sulfate binding domain containing distinctive syndecan-1 and -4 binding sequences. Significance: Identifying syndecan-1-and -4-binding sites in laminin 332 is crucial for elucidation of their function in keratinocyte migration.

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Sonia Carulli

Regeneration of the entire human epidermis using transgenic stem cells

Closure of a Large Chronic Wound through Transplantation of Gene-Corrected Epidermal Stem Cells

Long-Term Stability and Safety of Transgenic Cultured Epidermal Stem Cells in Gene Therapy of Junctional Epidermolysis Bullosa

Cell Surface Proteoglycans Syndecan-1 and -4 Bind Overlapping but Distinct Sites in Laminin α3 LG45 Protein Domain

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