Background
Inflammatory bleeding due to depletion of platelet glycoprotein VI (GPVI) and C‐type lectin‐like receptor 2 (CLEC‐2) has been proposed as a potential novel mechanism to promote skin wound healing. Dasatinib inhibits a broad range of tyrosine kinases, including Src and Syk, the signaling molecules downstream of GPVI and CLEC‐2.
Objectives
To investigate whether dasatinib affects skin wound healing.
Methods
A single (4‐mm diameter) full‐thickness excisional skin wound was generated in mice. Dasatinib (5 or 10 mg/kg) or dimethyl sulfoxide (DMSO) vehicle was intraperitoneally injected daily during the first 4 days. The wound was monitored over 9 days post injury.
Results
Dasatinib induced loss of vascular integrity during the inflammatory phase of wound repair (day 1 to day 3 post injury), which was associated with the inhibition of platelet function stimulated by collagen and rhodocytin, the ligands for GPVI and CLEC‐2, respectively. Dasatinib‐treated mice, particularly at 5 mg/kg, exhibited accelerated wound closure compared to DMSO‐treated controls. Transient bleeding into the wound during the inflammatory phase in dasatinib‐treated mice allowed for extravasation of fibrinogen. The increased deposition of fibrinogen and fibrin in the wound on day 3 post injury was associated with the augmented progression of re‐epithelialization and angiogenesis, attenuated infiltration of neutrophils and macrophages, and decreased levels of tumor necrosis factor‐α (TNF‐α).
Conclusions
Our data show that dasatinib promotes skin wound healing, and the mechanisms include blocking GPVI‐ and CLEC‐2‐mediated platelet activation, leading to self‐limited inflammatory bleeding and fibrinogen/fibrin deposition, in association with reduced inflammation, increased re‐epithelialization, and enhanced angiogenesis.
Ageing presents adverse effects on the retina and is the primary risk factor for age‐related macular degeneration (AMD). We report the first RNA‐seq analysis of age‐related transcriptional changes in the human retinal pigment epithelium (RPE), the primary site of AMD pathogenesis. Whole transcriptome sequencing of RPE from human donors ranging in age from 31 to 93 reveals that ageing is associated with increasing transcription of main RPE‐associated visual cycle genes (including LRAT, RPE65, RDH5, RDH10, RDH11; pathway enrichment BH‐adjusted P = 4.6 × 10−6). This positive correlation is replicated in an independent set of 28 donors and a microarray dataset of 50 donors previously published. LRAT expression is positively regulated by retinoid by‐products of the visual cycle (A2E and all‐trans‐retinal) involving modulation by retinoic acid receptor alpha transcription factor. The results substantiate a novel age‐related positive feedback mechanism between accumulation of retinoid by‐products in the RPE and the up‐regulation of visual cycle genes.
CRISPR/Cas9 causes double-stranded DNA breaks that can undergo DNA repair either via non-homologous end joining (NHEJ) or, in the presence of a template, homology-directed repair (HDR). HDR is typically used to insert a specific genetic modification into the genome but has low efficiency compared to NHEJ, which is lowered even further when trying to create a homozygous change. In this study we devised a novel approach for homozygous single base editing based on utilising simultaneously two donor DNA templates cloned in plasmids with different antibiotic resistant genes. The donor templates were co-transfected alongside the CRISPR/Cas9 machinery into cells and a double antibiotic selection was optimised and allowed the isolation of viable desired clones. We applied the method for obtaining isogenic cells homozygous for variant B cystatin C, a recessive risk factor for age-related macular degeneration and Alzheimer’s disease, in both induced Pluripotent Stem Cells (iPSCs) and a human RPE cell line. Bi-allelic gene edited clones were validated by sequencing, demonstrating that the double antibiotic templates approach worked efficiently for both iPSCs and human differentiated cells. We propose that this one step gene editing approach can be used to improve the specificity and frequency of introducing homozygous modifications in mammalian cells.
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