A Genome-Wide Association Scan on the Levels of Markers of Inflammation in Sardinians Reveals Associations That Underpin Its Complex Regulation

There has been great progress in ocular gene therapy, but delivery of viral vectors to the retinal pigmented epithelium (RPE) and retina can be challenging. Subretinal injection, the preferred route of delivery for most applications, requires a surgical procedure that has risks. Herein we report a novel gene therapy delivery approach, suprachoroidal injection of AAV8 vectors, which is less invasive and could be done in an outpatient setting. Two weeks after suprachoroidal injection of AAV8.GFP in rats, GFP fluorescence covered 18.9% of RPE flat mounts and extended entirely around sagittal and transverse sections in RPE and photoreceptors. After 2 suprachoroidal injections of AAV8.GFP, GFP fluorescence covered 30.5% of RPE flat mounts. Similarly, widespread expression of GFP occurred in nonhuman primate and pig eyes after suprachoroidal injection of AAV8. GFP. Compared with subretinal injection in rats of RGX-314, an AAV8 vector expressing an anti-VEGF Fab, suprachoroidal injection of the same dose of RGX-314 resulted in similar expression of anti-VEGF Fab and similar suppression of VEGFinduced vascular leakage. Suprachoroidal AAV8 vector injection provides a noninvasive outpatient procedure to obtain widespread transgene expression in retina and RPE.

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Leukocyte recruitment in the brain in sepsis: involvement of the annexin 1‐FPR2/ALX anti‐inflammatory system

Gavins

Hughes

Buss

et al. 2012

FASEB j.

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Unregulated inflammation underlies many diseases, including sepsis. Much interest lies in targeting anti-inflammatory mechanisms to develop new treatments. One such target is the anti-inflammatory protein annexin A1 (AnxA1) and its receptor, FPR2/ALX. Using intravital videomicroscopy, we investigated the role of AnxA1 and FPR2/ALX in a murine model of endotoxin-induced cerebral inflammation [intraperitoneal injection of lipopolysaccharide (LPS)]. An inflammatory response was confirmed by elevations in proinflammatory serum cytokines, increased cerebrovascular permeability, elevation in brain myeloperoxidase, and increased leukocyte rolling and adhesion in cerebral venules of wild-type (WT) mice, which were further exacerbated in AnxA1-null mice. mRNA expression of TLR2, TLR4, MyD-88, and Ly96 was also assessed. The AnxA1-mimetic peptide, AnxA1(Ac2-26) (100 μg/mouse, ∼33 μmol) mitigated LPS-induced leukocyte adhesion in WT and AnxA1-null animals without affecting leukocyte rolling, in comparison to saline control. AnxA1(Ac2-26) effects were attenuated by Boc2 (pan-FPR antagonist, 10 μg/mouse, ∼12 nmol), and by minocycline (2.25 mg/mouse, ∼6.3 nmol). The nonselective Fpr agonists, fMLP (6 μg/mouse, ∼17 nmol) and AnxA1(Ac2-26), and the Fpr2-selective agonist ATLa (5 μg/mouse, ∼11 nmol) were without effect in Fpr2/3(-/-) mice. In summary, our novel results demonstrate that the AnxA1/FPR2 system has an important role in effecting the resolution of cerebral inflammation in sepsis and may, therefore, provide a novel therapeutic target.

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Proteome of H-411E (liver) cells exposed to insulin and tumor necrosis factor-α: Analysis of proteins involved in insulin resistance

Solomon

Buss

Shull

et al. 2005

Journal of Laboratory and Clinical Medicine

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Characterization of AAV-mediated dorsal root ganglionopathy

Buss

Lanigan²,

Zeller³

et al. 2022

Molecular Therapy - Methods & Clinical Development

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Annexin A1 and the formyl peptide receptor family: neuroendocrine and metabolic aspects

John

Gavins

Buss

et al. 2008

Current Opinion in Pharmacology

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Potent Immune Modulation by MEDI6383, an Engineered Human OX40 Ligand IgG4P Fc Fusion Protein

Oberst¹,

Augé²,

Morris³

et al. 2018

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Ligation of OX40 (CD134, TNFRSF4) on activated T cells by its natural ligand (OX40L, CD252, TNFSF4) enhances cellular survival, proliferation, and effector functions such as cytokine release and cellular cytotoxicity. We engineered a recombinant human OX40L IgG4P Fc fusion protein termed MEDI6383 that assembles into a hexameric structure and exerts potent agonist activity following engagement of OX40. MEDI6383 displayed solution-phase agonist activity that was enhanced when the fusion protein was clustered by Fc gamma receptors (FcgRs) on the surface of adjacent cells. The resulting costimulation of OX40 on T cells induced NFkB promoter activity in OX40-expressing T cells and induced Th1-type cytokine production, proliferation, and resistance to regulatory T cell (Treg)-mediated suppression. MEDI6383 enhanced the cytolytic activity of tumor-reactive T cells and reduced tumor growth in the context of an alloreactive human T cell:tumor cell admix model in immunocompromised mice. Consistent with the role of OX40 costimulation in the expansion of memory T cells, MEDI6383 administered to healthy nonhuman primates elicited peripheral blood CD4 and CD8 central and effector memory T-cell proliferation as well as B-cell proliferation. Together, these results suggest that OX40 agonism has the potential to enhance antitumor immunity in human malignancies.

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MEDI6012: Recombinant Human Lecithin Cholesterol Acyltransferase, High‐Density Lipoprotein, and Low‐Density Lipoprotein Receptor–Mediated Reverse Cholesterol Transport

George

Abuhatzira

Stoughton

et al. 2021

JAHA

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Background MEDI6012 is recombinant human lecithin cholesterol acyltransferase, the rate‐limiting enzyme in reverse cholesterol transport. Infusions of lecithin cholesterol acyltransferase have the potential to enhance reverse cholesterol transport and benefit patients with coronary heart disease. The purpose of this study was to test the safety, pharmacokinetic, and pharmacodynamic profile of MEDI6012. Methods and Results This phase 2a double‐blind study randomized 48 subjects with stable coronary heart disease on a statin to a single dose of MEDI6012 or placebo (6:2) (NCT02601560) with ascending doses administered intravenously (24, 80, 240, and 800 mg) and subcutaneously (80 and 600 mg). MEDI6012 demonstrated rates of treatment‐emergent adverse events that were similar to those of placebo. Dose‐dependent increases in high‐density lipoprotein cholesterol were observed with area under the concentration‐time curves from 0 to 96 hours of 728, 1640, 3035, and 5318 should be: mg·h/mL in the intravenous dose groups and 422 and 2845 mg·h/mL in the subcutaneous dose groups. Peak mean high‐density lipoprotein cholesterol percent change was 31.4%, 71.4%, 125%, and 177.8% in the intravenous dose groups and 18.3% and 111.2% in the subcutaneous dose groups, and was accompanied by increases in endogenous apoA1 (apolipoprotein A1) and non‐ATP‐binding cassette transporter A1 cholesterol efflux capacity. Decreases in apoB (apolipoprotein B) were observed across all dose levels and decreases in atherogenic small low‐density lipoprotein particles by 41%, 88%, and 79% at the 80‐, 240‐, and 800‐mg IV doses, respectively. Conclusions MEDI6012 demonstrated an acceptable safety profile and increased high‐density lipoprotein cholesterol, endogenous apoA1, and non‐ATP‐binding cassette transporter A1 cholesterol efflux capacity while reducing the number of atherogenic low‐density lipoprotein particles. These findings are supportive of enhanced reverse cholesterol transport and a functional high‐density lipoprotein phenotype. Registration URL: https://www.clinicaltrials.gov ; Unique identifier: NCT02601560.

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Nicholas Buss

Monoclonal antibody therapeutics: history and future

AAV8-vectored suprachoroidal gene transfer produces widespread ocular transgene expression

Leukocyte recruitment in the brain in sepsis: involvement of the annexin 1‐FPR2/ALX anti‐inflammatory system

Proteome of H-411E (liver) cells exposed to insulin and tumor necrosis factor-α: Analysis of proteins involved in insulin resistance

Characterization of AAV-mediated dorsal root ganglionopathy

Annexin A1 and the formyl peptide receptor family: neuroendocrine and metabolic aspects

Potent Immune Modulation by MEDI6383, an Engineered Human OX40 Ligand IgG4P Fc Fusion Protein

MEDI6012: Recombinant Human Lecithin Cholesterol Acyltransferase, High‐Density Lipoprotein, and Low‐Density Lipoprotein Receptor–Mediated Reverse Cholesterol Transport

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