Sarah F. Cordery scite author profile

Sarah F. Cordery

4Publications

188Citation Statements Received

92Citation Statements Given

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173

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Affiliations

University of Bath, University of Leeds, St James's University Hospital

Publications

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Tissue-specific imprinting of the ZAC/PLAGL1 tumour suppressor gene results from variable utilization of monoallelic and biallelic promoters

Valleley

Cordery

Bonthron

2007

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The tumour suppressor gene ZAC/PLAGL1 is widely expressed in many human tissues during fetal development and throughout life. It encodes a DNA-binding protein which shares with p53 the ability to regulate apoptosis and cell cycle arrest concurrently. Owing to its anti-proliferative properties, down-regulation or loss of ZAC is believed to deregulate cell growth, and loss of expression has been observed in a number of different cancers. In addition, overexpression of ZAC during fetal development is believed to underlie the rare disorder transient neonatal diabetes mellitus (TNDM). Imprinted expression of ZAC has been demonstrated in many human and mouse tissues, although biallelic transcription has been noted in human peripheral blood leucocytes (PBL). We report here the identification of a second ZAC promoter, which is responsible for the observed biallelic expression. The promoter lies within a previously uncharacterized CpG island ~55 kb upstream of the imprinted CpG island. In PBL, the imprinted CpG island (P1) is differentially methylated and produces monoallelic transcripts, as in other tissues. However, biallelic transcripts predominate and are derived from the alternative CpG island (P2), which is unmethylated. Biallelic P2 expression was also found in adult pancreas, and ZAC expression from this promoter was identified at a low level in all adult human tissues tested. These findings show that regulation of ZAC expression is more complex than previously realized. The existence of the apparently independently-regulated P2 promoter has important implications for the study of ZAC dysregulation in cancer and TNDM.

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Topical bioavailability of diclofenac from locally-acting, dermatological formulations

Cordery

Pensado

Chiu

et al. 2017

International Journal of Pharmaceutics

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Assessment of the bioavailability of topically applied drugs designed to act within or beneath the skin is a challenging objective. A number of different, but potentially complementary, techniques are under evaluation. The objective of this work was to evaluate in vitro skin penetration and stratum corneum tape-stripping in vivo as tools with which to measure topical diclofenac bioavailability from three approved and commercialized products (two gels and one solution). Drug uptake into, and its subsequent clearance from, the stratum corneum of human volunteers was used to estimate the input rate of diclofenac into the viable skin layers. This flux was compared to that measured across excised porcine skin in conventional diffusion cells. Both techniques clearly demonstrated (a) the superiority in terms of drug delivery from the solution, and (b) that the two gels performed similarly. There was qualitative and, importantly, quantitative agreement between the in vitro and in vivo measurements of drug flux into and beyond the viable skin. Evidence is therefore presented to support an in vivo — in vitro correlation between methods to assess topical drug bioavailability. The potential value of the stratum corneum tape-stripping technique to quantify drug delivery into (epi)dermal and subcutaneous tissue beneath the barrier is demonstrated.

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Stratum Corneum Sampling to Assess Bioequivalence between Topical Acyclovir Products

et al. 2019

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PurposeTo examine the potential of stratum corneum (SC) sampling via tape-stripping in humans to assess bioequivalence of topical acyclovir drug products, and to explore the potential value of alternative metrics of local skin bioavailability calculable from SC sampling experiments.MethodsThree acyclovir creams were considered in two separate studies in which drug amounts in the SC after uptake and clearance periods were measured and used to assess bioequivalence. In each study, a “reference” formulation (evaluated twice) was compared to the “test” in 10 subjects. Each application site was replicated to achieve greater statistical power with fewer volunteers.ResultsSC sampling revealed similarities and differences between products consistent with results from other surrogate bioequivalence measures, including dermal open-flow microperfusion experiments. Further analysis of the tape-stripping data permitted acyclovir flux into the viable skin to be deduced and drug concentration in that ‘compartment’ to be estimated.ConclusionsAcyclovir quantities determined in the SC, following a single-time point uptake and clearance protocol, can be judiciously used both to objectively compare product performance in vivo and to assess delivery of the active into skin tissue below the barrier, thereby permitting local concentrations at or near to the site of action to be determined.Electronic supplementary materialThe online version of this article (10.1007/s11095-019-2707-3) contains supplementary material, which is available to authorized users.

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Sequence analysis and editing for bisulphite genomic sequencing projects

Carr

Valleley

Cordery

et al. 2007

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Bisulphite genomic sequencing is a widely used technique for detailed analysis of the methylation status of a region of DNA. It relies upon the selective deamination of unmethylated cytosine to uracil after treatment with sodium bisulphite, usually followed by PCR amplification of the chosen target region. Since this two-step procedure replaces all unmethylated cytosine bases with thymine, PCR products derived from unmethylated templates contain only three types of nucleotide, in unequal proportions. This can create a number of technical difficulties (e.g. for some base-calling methods) and impedes manual analysis of sequencing results (since the long runs of T or A residues are difficult to align visually with the parent sequence). To facilitate the detailed analysis of bisulphite PCR products (particularly using multiple cloned templates), we have developed a visually intuitive program that identifies the methylation status of CpG dinucleotides by analysis of raw sequence data files produced by MegaBace or ABI sequencers as well as Staden SCF trace files and plain text files. The program then also collates and presents data derived from independent templates (e.g. separate clones). This results in a considerable reduction in the time required for completion of a detailed genomic methylation project.

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Sarah F. Cordery

Tissue-specific imprinting of the ZAC/PLAGL1 tumour suppressor gene results from variable utilization of monoallelic and biallelic promoters

Topical bioavailability of diclofenac from locally-acting, dermatological formulations

Stratum Corneum Sampling to Assess Bioequivalence between Topical Acyclovir Products

Sequence analysis and editing for bisulphite genomic sequencing projects

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