Publications by authors named "John R Counsell"

Background: Cancer cells remodel their local physical environment through processes of matrix reorganisation, deposition, stiffening and degradation. Urokinase-type plasminogen activator (uPA), which is encoded by the gene, is an extracellular proteolytic enzyme known to be involved in cancer progression and tumour microenvironment (TME) remodelling. Perturbing uPA therefore has a strong potential as a mechano-based cancer therapy.

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  • Over 1,000 unexplained pediatric hepatitis cases have been identified globally, with a study focusing on 38 cases and various control groups to understand potential viral causes.
  • High levels of adeno-associated virus 2 (AAV2) DNA were found in most cases, while low levels of adenovirus and human herpesvirus 6B were also detected; however, AAV2 appeared infrequently in healthy controls even when they were immunocompromised.
  • The study suggests that abnormal replication of AAV2, potentially influenced by other viruses like HAdV and HHV-6B, may be responsible for immune-related liver disease in susceptible children.
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Skeletal muscle is a complex tissue composed of multinucleated myofibers responsible for force generation that are supported by multiple cell types. Many severe and lethal disorders affect skeletal muscle; therefore, engineering models to reproduce such cellular complexity and function are instrumental for investigating muscle pathophysiology and developing therapies. Here, we detail the modular 3D bioengineering of multilineage skeletal muscles from human induced pluripotent stem cells, which are first differentiated into myogenic, neural and vascular progenitor cells and then combined within 3D hydrogels under tension to generate an aligned myofiber scaffold containing vascular networks and motor neurons.

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  • The human adenovirus family is divided into seven species, with species D showing promise for gene therapy due to low pre-existing immunity in the population.
  • Human adenovirus type 49 (HAdV-D49) was studied and found to utilize multiple pathways for cell entry, allowing it to infect a variety of cell types.
  • HAdV-D49 demonstrates reduced targeting of the liver compared to adenovirus type 5, making it a potentially effective vector for targeting the lung and spleen while minimizing liver interactions, which is beneficial for vaccine delivery.
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Absence of dystrophin, an essential sarcolemmal protein required for muscle contraction, leads to the devastating muscle-wasting disease Duchenne muscular dystrophy. Dystrophin has an actin-binding domain, which binds and stabilises filamentous-(F)-actin, an integral component of the RhoA-actin-serum-response-factor-(SRF) pathway. This pathway plays a crucial role in circadian signalling, whereby the suprachiasmatic nucleus (SCN) transmits cues to peripheral tissues, activating SRF and transcription of clock-target genes.

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  • Most neurodegenerative disorders lack cures, but precision medicine offers promising avenues for treatment, particularly for dopamine transporter deficiency syndrome (DTDS), which is tied to mutations in the dopamine transporter gene.
  • Researchers created a dopaminergic neuron model from patient-derived induced pluripotent stem cells (iPSCs) to study DTDS and found that a pharmacochaperone could partially restore dopamine transporter activity, while gene therapy showed more comprehensive benefits.
  • Testing in a knockout mouse model of DTDS demonstrated that targeted adeno-associated virus (AAV) gene therapy could significantly improve motor function and neuron survival, highlighting its potential for clinical application in treating DTDS.
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  • Lentiviral vectors derived from HIV-1 usually integrate their RNA genome into the host cell's DNA, leading to long-lasting gene expression, but integration-deficient versions have been created to minimize this persistence.
  • New research focuses on optimizing a reverse-transcriptase-deficient lentiviral vector that allows for the direct translation of RNA genomes in cells, bypassing the need for a DNA step.
  • This innovative LV design promotes efficient expression of genetic material without integration, making it promising for temporary gene expression in gene and cell therapy applications.
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Explosion of gene therapy approaches for treating rare monogenic and common liver disorders created an urgent need for disease models able to replicate human liver cellular environment. Available models lack 3D liver structure or are unable to survive in long-term culture. We aimed to generate and test a 3D culture system that allows long-term maintenance of human liver cell characteristics.

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Objective: Obesity is a major cause of morbidity and mortality. Few weight-reducing medications are available, and these have limited efficacy. Cushing's Syndrome (caused by elevated glucocorticoid levels) and obesity have similar metabolic features.

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  • - The study enhances previously developed lentiviral vector technology by utilizing adeno-associated viral vectors (AAV) to generate transgenic rodents for monitoring disease-related signaling pathways through non-invasive whole-body bioluminescence imaging.
  • - After administering AAV8 intravenously, researchers observed widespread expression of genes (GFP and luciferase) in various organs, demonstrating a strong and lasting luciferase expression lasting up to 240 days.
  • - The research validated a new biosensor that employs an NFκB response element, which can effectively track signaling pathways in rodents during inflammation, offering potential advancement in studying various rodent disease models.
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The manufacture of large quantities of high-quality DNA is a major bottleneck in the production of viral vectors for gene therapy. Touchlight Genetics has developed a proprietary abiological technology that addresses the major issues in commercial DNA supply. The technology uses 'rolling-circle' amplification to produce large quantities of concatameric DNA that is then processed to create closed linear double-stranded DNA by enzymatic digestion.

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Viral vectors are rapidly being developed for a range of applications in research and gene therapy. Prototype foamy virus (PFV) vectors have been described for gene therapy, although their use has mainly been restricted to ex vivo stem cell modification. Here we report direct in vivo transgene delivery with PFV vectors carrying reporter gene constructs.

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Luciferase bioimaging in living animals is increasingly being applied in many fields of biomedical research. Rodent imaging usually involves anaesthetising the animal during data capture, however, the biological consequences of anaesthesia have been largely overlooked. We have evaluated luciferase bioimaging in conscious, unrestrained mice after neonatal intracranial or intravascular administration of lentiviral, luciferase reporter cassettes (biosensors); we present real-time analyses from the first day of life to adulthood.

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  • - The study develops a new lentiviral vector (LTR1) that significantly reduces the amount of wild-type HIV-1 sequences in its genomic RNA, from 19.6% to 4.8%, to enhance safety for clinical applications.
  • - LTR1 is designed to avoid copying HIV-1 packaging sequences by using a modified single strand transfer method during reverse-transcription, thus reducing risks associated with HIV-1 remobilization and integration into human genes.
  • - The new vector shows improved performance in gene therapy, achieving more rapid transgene expression and higher levels of sustained expression in animal models, effectively treating a mouse model of hemophilia B.
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Duchenne Muscular Dystrophy (DMD) is caused by a lack of dystrophin expression in patient muscle fibres. Current DMD gene therapy strategies rely on the expression of internally deleted forms of dystrophin, missing important functional domains. Viral gene transfer of full-length dystrophin could restore wild-type functionality, although this approach is restricted by the limited capacity of recombinant viral vectors.

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Duchenne Muscular Dystrophy (DMD) is caused by a lack of dystrophin expression in patient muscle fibres. Current DMD gene therapy strategies rely on the expression of internally deleted forms of dystrophin, missing important functional domains. Viral gene transfer of full-length dystrophin could restore wild-type functionality, although this approach is restricted by the limited capacity of recombinant viral vectors.

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Autologous stem cells that have been genetically modified to express dystrophin are a possible means of treating Duchenne Muscular Dystrophy (DMD). To maximize the therapeutic effect, dystrophin construct needs to contain as many functional motifs as possible, within the packaging capacity of the viral vector. Existing dystrophin constructs used for transduction of muscle stem cells do not contain the nNOS binding site, an important functional motif within the dystrophin gene.

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