Laura J. McCloskey scite author profile

The tight skin-2 (Tsk2/+) mouse has been proposed as an animal model of systemic sclerosis (SSc) because this animal exhibits increased collagen synthesis and accumulation in the dermis. The Tsk2/+ mouse also has been reported to have a mononuclear cell infiltrate in the dermis; however, to date no evidence of autoimmunity has been described in this animal model. We report here that Tsk2/+ mice harbor numerous autoantibodies in their plasma including some, which are similar to those, present in SSc patients. Immunofluorescence with HEp-2 cells revealed the presence of anti-nuclear Abs (ANAs) in the plasma of 92% of the Tsk2/+ mice. In contrast, <5% of cage-mated CAST/ei mice had a positive ANA and none of the C3H/HeJ age-matched controls were positive. Homogenous, speckled, rim, nucleolar, centromere as well as combinations of these patterns were observed. The proportion of Tsk2/+ animals with a positive ANA increased slightly with age. ELISAs showed that 93% of the Tsk2/+ animals were positive for anti-Scl70, 82% for anti-centromere, 5% for anti-RNP/Sm, and none were positive for anti-RNA-polymerase II Abs. Indirect immunofluorescence with Crithidia luciliae and ELISA for anti-dsDNA Abs showed that 76% of Tsk2/+ mice were positive for this autoantibody. The high frequency of anti-Scl70 and anti-centromere autoantibodies indicates that Tsk2/+ mice display some humoral immune alterations which are similar to those found in patients with SSc. However, the Tsk2/+ mice also develop autoantibodies to dsDNA and a majority of the mice develop multiple autoantibody specificities (anti-Scl70, anti-CENP-B, and anti-dsDNA) indicating that the mouse may be a useful model to study autoimmunity in a wider spectrum of connective tissue diseases.

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Optimizing Transgene Configuration and Protein Fusions to Maximize Dopamine Production for the Gene Therapy of Parkinson's Disease

Stewart

Ralph

Fong-Wong

et al. 2016

Human Gene Therapy Clinical Development

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Pharmacological dopamine replacement therapies provide the most well-established treatments for Parkinson's disease (PD). However, these long-term treatments can lead to motor complications and off-target effects. ProSavin(®), a lentiviral vector (LV)-based gene therapy approach aimed at restoring local and continuous dopamine production, through delivery of three enzymes in the dopamine biosynthesis pathway, was demonstrated to be safe and well-tolerated in a phase I/II clinical study of patients with advanced PD. Although improvements in motor behaviour were observed, the data indicated that higher levels of dopamine replacement might be required to maximize benefit. We attempted to increase production of dopamine, and its precursor L-Dopa in LV-transduced cells, by optimizing the gene order in the ProSavin expression cassette, and by creating fusions of two or three of the transgenes, using linker sequences. In vitro analysis showed that several gene arrangements provided significantly increased dopamine and/or L-Dopa production compared with ProSavin, and that LV titers and transgene expression were not affected by introducing gene fusions. One vector, equine infectious anemia virus (EIAV)-TCiA, was selected for further characterization and showed significant improvements in dopamine and L-Dopa production compared with ProSavin, in human neuronal cells. Further characterization of EIAV-TCiA demonstrated expression of all three dopamine enzymes in vivo and faithful delivery and integration of the expected gene expression cassette within the genome of target cells, as assessed by Northern and Southern blotting. In conclusion, we have developed a novel LV vector with an increased capacity for L-Dopa and dopamine production compared with the current ProSavin vector. Clinical evaluation of this vector will be performed to assess the benefits in patients with PD.

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Model analysis of effect of canagliflozin (Invokana), a sodium–glucose cotransporter 2 inhibitor, to alter plasma 1,5-anhydroglucitol

Fortuna

McCloskey

Stickle

2016

Clinica Chimica Acta

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Pregnancy Outcomes in Female Renal Recipients: A Comparison of Systemic Lupus Erythematosus With Other Diagnoses

McGrory¹,

McCloskey²,

DeHoratius

et al. 2003

American Journal of Transplantation

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This study compares pregnancy outcomes in systemic lupus erythematosus (SLE) patients post renal transplant with recipients with other primary diagnoses, utilizing data from the National Transplantation Pregnancy Registry, Philadelphia, PA. Recipients were referred from transplant centers nationwide. A retrospective analysis was performed using data from questionnaires, hospital records and telephone interviews. Outcomes of pregnancies post renal transplant secondary to lupus nephritis (SLE: n Ω 38; 60 pregnancies) were compared with the pregnancy outcomes of renal recipients with other diagnoses (non-SLE: n Ω 247; 374 pregnancies). Drug-treated hypertension during pregnancy was less common in the SLE group than in the non-SLE group (45.0% vs. 62.5%, p Ω 0.015). There were fewer cesarean sections in the SLE group (30.2 vs. 53.2%, p Ω 0.008). There was no primary or gestational diabetes in the SLE group. There were no other statistical differences in maternal conditions or pregnancy outcomes between the SLE and non-SLE groups, or in the incidence of post pregnancy graft loss. Female recipients transplanted for renal failure secondary to lupus nephritis can successfully maintain pregnancy. Outcomes are comparable to renal recipients with other diagnoses. Newborns in both groups were often premature and had low birthweight. Overall childhood health was reported to be good; there were no apparent predominant structural malformations among the children.

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Characterization of Lentiviral Vector Production Using Microwell Suspension Cultures of HEK293T-Derived Producer Cells

Guy

McCloskey

Lye

et al. 2013

Human Gene Therapy Methods

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ProSavin(®) is a lentiviral vector (LV)-based gene therapy for Parkinson's disease. ProSavin(®) is currently in a Phase I/II clinical trial using material that was generated by transient transfection of adherent human embryonic kidney (HEK)293T cells. For future large-scale productions of ProSavin(®), we have previously reported the development and characterization of two inducible producer cell lines, termed PS5.8 and PS46.2. PS46.2 has been successfully adapted to grow in suspension cultures. The present study describes the creation of a small-scale (<2 ml) microwell-based experimental platform for the parallel investigation of ProSavin(®) production using suspension-adapted PS46.2. This is combined with statistical design of experiments (DoE) techniques to enable rapid characterization of the process conditions that impact cell growth and LV production. The effects of postinduction period, microwell liquid fill volume, and concentration of inducer (doxycycline) on ProSavin(®) titer and the particle:infectivity (P:I) ratio was investigated using three rounds of DoE, in order to identify appropriate factor ranges and optimize production conditions. We identified an optimal "harvest window" between approximately 26-46 hr within which maximal titers of around 6×10(4) transducing units (TU)/ml were obtained (an approximately 30-fold improvement compared to starting microwell conditions), providing that the fill volume was maintained at or below 1 ml and the doxycycline concentration was at least 1.0 μg/ml. Insights from the microwell studies were subsequently used to rapidly establish operating conditions for ProSavin(®) production in a 0.5-L wave bioreactor culture. The information presented herein thus aids the design and evaluation of scalable production processes for LVs.

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