<i>Ex vivo</i> gene modification therapy for genetic skin diseases—recent advances in gene modification technologies and delivery

Jayarajan, Vignesh; Kounatidou, Evangelia E.; Qasim, Waseem; Di, Wei‐Li

doi:10.1111/exd.14314

Cited by 13 publications

(11 citation statements)

References 90 publications

(211 reference statements)

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“…Similar projects have already been initiated for other conditions, including NS (Di et al, 2011) (Di et al, 2019) (for a review see (Ain et al, 2021) (Jayarajan et al, 2021)), porphyrias (Bustad et al, 2021), and DEB (Eichstadt et al, 2019). For the latter, experiments in engineered epidermal-dermal skin substitutes suggest that expression of the COL7A1 gene in both keratinocytes and fibroblasts is most likely necessary so as to produce structurally normal anchoring fibrils.…”

Section: Gene Insertion (Augmentation)mentioning

confidence: 90%

“…This agent has also been employed with success in a patient with NS ( Volc et al, 2020 ), and in another patient exhibiting a biallelic mutation in desmoplakin that manifested as ichthyosis ( Paller et al, 2018 ). Different case reports and small series have already been published focussing on Il-17 inhibitors such as sekukinumab ( Blanchard and Prose, 2020 ; Luchsinger et al, 2020 ; Barbieux et al, 2021 ) in NS, although sustained improvement could not be obtained in one patient. Given that, after this treatment, a Th2 signature remained ( Barbieux et al, 2021 ), using dupilumab, a blocker of the IL-4 receptor’s alpha-chain, thereby blocking Il-4 and Il-13 cytokines, could be another target for some NS patients, as it has already been tested with encouraging results ( Andreasen et al, 2020 ; Steuer and Cohen, 2020 ; Süßmuth et al, 2021 ).…”

Section: Interfering With the Pathophysiological Pathways Disturbed By The Mutated Genementioning

confidence: 99%

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Challenges in Treating Genodermatoses: New Therapies at the Horizon

Morren

Legius

Giuliano³

et al. 2022

Front. Pharmacol.

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Genodermatoses are rare inherited skin diseases that frequently affect other organs. They often have marked effects on wellbeing and may cause early death. Progress in molecular genetics and translational research has unravelled many underlying pathological mechanisms, and in several disorders with high unmet need, has opened the way for the introduction of innovative treatments. One approach is to intervene where cell-signaling pathways are dysregulated, in the case of overactive pathways by the use of selective inhibitors, or when the activity of an essential factor is decreased by augmenting a molecular component to correct disequilibrium in the pathway. Where inflammatory reactions have been induced by a genetically altered protein, another possible approach is to suppress the inflammation directly. Depending on the nature of the genodermatosis, the implicated protein or even on the particular mutation, to correct the consequences or the genetic defect, may require a highly personalised stratagem. Repurposed drugs, can be used to bring about a “read through” strategy especially where the genetic defect induces premature termination codons. Sometimes the defective protein can be replaced by a normal functioning one. Cell therapies with allogeneic normal keratinocytes or fibroblasts may restore the integrity of diseased skin and allogeneic bone marrow or mesenchymal cells may additionally rescue other affected organs. Genetic engineering is expanding rapidly. The insertion of a normal functioning gene into cells of the recipient is since long explored. More recently, genome editing, allows reframing, insertion or deletion of exons or disruption of aberrantly functioning genes. There are now several examples where these stratagems are being explored in the (pre)clinical phase of therapeutic trial programmes. Another stratagem, designed to reduce the severity of a given disease involves the use of RNAi to attenuate expression of a harmful protein by decreasing abundance of the cognate transcript. Most of these strategies are short-lasting and will thus require intermittent life-long administration. In contrast, insertion of healthy copies of the relevant gene or editing the disease locus in the genome to correct harmful mutations in stem cells is more likely to induce a permanent cure. Here we discuss the potential advantages and drawbacks of applying these technologies in patients with these genetic conditions. Given the severity of many genodermatoses, prevention of transmission to future generations remains an important goal including offering reproductive choices, such as preimplantation genetic testing, which can allow selection of an unaffected embryo for transfer to the uterus.

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Section: Gene Insertion (Augmentation)mentioning

confidence: 90%

Section: Interfering With the Pathophysiological Pathways Disturbed By The Mutated Genementioning

confidence: 99%

Challenges in Treating Genodermatoses: New Therapies at the Horizon

Morren

Legius

Giuliano³

et al. 2022

Front. Pharmacol.

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“…Finally, most CRISPR-mediated gene therapy has focused on ex vivo treatment, namely editing of stem cells outside the body and subsequent reintroduction of corrected cells back into patients. Although this strategy has been done to edit human epidermal stem cells or induce pluripotent stem cells from patients ( Jayarajan et al., 2021 ) and successfully regraft corrected cells into mice, in vivo editing directly on the skin has been limited to a modicum of studies. Furthermore, gene editing of stem cells in vivo would target both stem and differentiated cells—this is likely not a limitation because stem cells will persist, and the differentiated skin cells will eventually die and slough off through the natural course of skin cell maturation.…”

Section: Limitations Of Crisprmentioning

confidence: 99%

“…Recently, several informative review articles in dermatology journals have focused on ex vivo DNA/gene-editing therapies for rare genodermatoses ( De Rosa et al., 2020 ; Jayarajan et al., 2021 ; March et al., 2018 ). In this study, we include both ex vivo and in vivo gene-editing applications in dermatology and further focus our attention on incorporating all classes of CRISPR nucleases—DNA and RNA targeting—into the repertoire of clinical tools available to the dermatologist.…”

Section: Introductionmentioning

confidence: 99%

The Potential of CRISPR-Guided Therapies in the Dermatology Clinic

Bhat

Garibyan

2022

JID Innovations

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This is a PDF file of an article that has undergone enhancements after acceptance, such as the addition of a cover page and metadata, and formatting for readability, but it is not yet the definitive version of record. This version will undergo additional copyediting, typesetting and review before it is published in its final form, but we are providing this version to give early visibility of the article. Please note that, during the production process, errors may be discovered which could affect the content, and all legal disclaimers that apply to the journal pertain.

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“…Since epithelial sheet gene therapy requires genetically modified KSCs to produce a large number of gene-corrected keratinocytes for sheet formation, a low yield of holoclones/stem cells due to anoikis in freshly isolated keratinocytes unduly prolongs culture time of epidermal sheets. This leads to the premature exhaustion of KSC proliferative potential, the loss of KSC stemness, resulting in a short-lived epidermal sheet graft gene therapy that hinders its clinical application 5 .…”

Section: Introductionmentioning

confidence: 99%

Short-term Rho-associated kinase inhibitor treatment accelerates primary keratinocyte growth while preserving stem cell characteristics

Jayarajan¹,

Hall

Xenakis

et al. 2022

Preprint

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Somatic stem cells can be cultured in-vitro and are attractive for cell and gene therapies, but their slow growth in in-vitro culture affects survival and stemness and hinders clinical applications. Rho-associated kinase inhibitor (ROCKi) has been used to overcome these obstacles. However, it risks changing the characteristics of stem cells. We found that primary keratinocyte stem cells (KSCs) cultured with the ROCKi Y-27632 for six days exhibited rapid proliferation while maintaining the ability to differentiate. Importantly, after discontinuation of ROCKi treatment, KSC numbers and characteristics were indistinguishable from those in non-treated cultures. We further confirmed that ROCKi treatment resulted in the activation of AKT and ERK pathways, which could support cell survival and proliferation in keratinocytes. We thus concluded that accelerating keratinocyte expansion with short-term ROCKi treatment does not exhaust KSCs' self-renewal and differentiation capacities, presenting a safe avenue for clinical applications.

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Ex vivo gene modification therapy for genetic skin diseases—recent advances in gene modification technologies and delivery

Cited by 13 publications

References 90 publications

Challenges in Treating Genodermatoses: New Therapies at the Horizon

Challenges in Treating Genodermatoses: New Therapies at the Horizon

The Potential of CRISPR-Guided Therapies in the Dermatology Clinic

Short-term Rho-associated kinase inhibitor treatment accelerates primary keratinocyte growth while preserving stem cell characteristics

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