Selected Grantee Publications
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- 92 results found
- Other Animal Models
- Nonhuman Primate Models
- Genetics
Effect of Omeprazole on Esophageal Microbiota in Dogs Detected Using a Minimally Invasive Sampling Method
Handa et al., Journal of Veterinary Internal Medicine. 2025.
https://pmc.ncbi.nlm.nih.gov/articles/PMC11864821
Omeprazole alters the esophageal microbiome (EM) of humans and has associated effects. The changes and subsequent recovery of the EM in 3- to 6-year-old dogs after omeprazole treatment were assessed using the esophageal string test (EST). All 10 dogs tolerated the EST without adverse effects, and the EST retrieved sufficient biofluid to characterize the EM. Diversity analysis revealed no significant alterations in alpha (Observed species, Shannon and Simpson indices) and beta diversity (Bray‐Curtis) across the time points after omeprazole administration. Thus, omeprazole therapy was not observed to alter the EM of healthy dogs in this study. The application of EST in dogs illustrates its use as a minimally invasive tool for investigating the role of EM in esophageal health and disease in dogs. Supported by ORIP (K01OD030515).
Small-Diameter Artery Grafts Engineered from Pluripotent Stem Cells Maintain 100% Patency in an Allogeneic Rhesus Macaque Model
Zhang et al., Cell Reports Medicine. 2025.
https://www.cell.com/cell-reports-medicine/fulltext/S2666-3791(25)00075-8
Globally, the leading cause of death is occlusive arterial disease, but surgical revascularization improves patient prognosis and reduces mortality. Vascular grafts often are needed in coronary bypass surgery for surgical revascularization. However, the clinically approved option for small-diameter revascularization is autologous vascular grafts, which require invasive harvesting methods, and many patients lack suitable vessels. Researchers developed a novel method for graft development using arterial endothelial cells (AECs), derived from pluripotent stem cells (PSCs), on expanded polytetrafluoroethylene using specific adhesion molecules. This study used a 6- to 13-year-old male rhesus macaque arterial interposition grafting model. The major histocompatibility complex mismatched wild-type (MHC-WT) AEC grafts were successful when implanted in rhesus macaques and attracted host cells to the engraftment, leading to 100% patency for 6 months. The results highlight a novel strategy for generating artery grafts from PSC-derived MHC-WT AECs that overcomes current challenges in graft development and may have future clinical applications. Supported by ORIP (P51OD011106, S10OD023526), NCI, and NHLBI.
Early Results of an Infant Model of Orthotopic Cardiac Xenotransplantation
Mitchell et al., Journal of Heart and Lung Transplantation. 2025.
https://pubmed.ncbi.nlm.nih.gov/39778609
This study evaluated the potential of genetically engineered pig hearts for human pediatric heart failure patients, with 11 infantile pig heart transplants performed in size-matched infant baboons (Papio anubis) (sex not specified). All grafts supported normal cardiac functions post-operatively, and six animals survived beyond 3 months. While early cardiac function was not a limiting factor for survival, systemic inflammation led to pulmonary edema and pleural effusions, which impeded long-term outcomes. These findings highlight the feasibility of cardiac xenotransplantation in infants and underscore the need for targeted therapies to manage inflammation and improve survival. Supported by ORIP (P40OD024628) and NHLBI.
Liver-Specific Transgenic Expression of Human NTCP In Rhesus Macaques Confers HBV Susceptibility on Primary Hepatocytes
Rust et al., PNAS. 2025.
https://pubmed.ncbi.nlm.nih.gov/39937851
This study establishes the first transgenic nonhuman primate model for hepatitis B virus (HBV). Male and female rhesus macaques were engineered to express the human HBV receptor, NTCP (hNTCP), specifically in the liver. Researchers used PiggyBac transposon technology to introduce a liver-specific NTCP transgene into embryos, which were then implanted into surrogate females. The resulting offspring expressed hNTCP in hepatocytes and demonstrated high susceptibility to HBV infection. This model overcomes the species-specific limitations of HBV research, providing a powerful tool for studying HBV biology and evaluating HBV treatments in a clinically relevant model system. Supported by ORIP (P51OD011092), NIDA, and NIAID.
Suppression of Viral Rebound by a Rev-Dependent Lentiviral Particle in SIV-Infected Rhesus Macaques
Hetrick et al., Gene Therapy. 2025.
https://pubmed.ncbi.nlm.nih.gov/39025983/
Viral reservoirs are a current major barrier that prevents an effective cure for patients with HIV. Antiretroviral therapy (ART) effectively suppresses viral replication, but ART cessation leads to viral rebound due to the presence of viral reservoirs. Researchers conducted in vivo testing of simian immunodeficiency virus (SIV) Rev-dependent vectors in SIVmac239-infected male and female Indian rhesus macaques, 3–6 years of age, to target viral reservoirs. Treatment with the SIV Rev-dependent vector reduced viral rebound and produced neutralizing antibodies following ART cessation. These results indicate the potential to self-control plasma viremia through a neutralizing antibody-based mechanism elicited by administration of Rev-dependent vectors. This research could guide future studies focused on investigating multiple vector injections and quantifying cell-mediated immune responses. Supported by ORIP (P51OD011104, P40OD028116), NIAID, and NIMH.
Spatiotemporal Characterization of Cyclooxygenase Pathway Enzymes During Vertebrate Embryonic Development
Leathers et al., Developmental Biology. 2025.
https://pubmed.ncbi.nlm.nih.gov/39581452/
The cyclooxygenase (COX) pathway plays a fundamental role in embryonic development. Disruptions of the COX pathway during pregnancy cause developmental anomalies, including craniofacial clefts, impaired gut innervation, and neural tube defects in the embryo. Researchers used Gallus gallus embryos to study the expression of COX pathway enzymes during neurulation. COX-1 protein expression was upregulated in cells undergoing mitosis, whereas COX-2 protein expression was ubiquitous. This study provides spatiotemporal expression data of COX pathway enzymes at key embryonic development stages in G. gallus and guides future studies focused on defining the role of these enzymes during embryonic development. Supported by ORIP (T35OD010956), NEI, NIDCR, and NIGMS.
Matrikine Stimulation of Equine Synovial Fibroblasts and Chondrocytes Results in an In Vitro Osteoarthritis Phenotype
Gagliardi et al., Journal of Orthopaedic Research. 2025.
https://pubmed.ncbi.nlm.nih.gov/39486895
Advancements in therapy development for osteoarthritis (OA) currently are limited due to a lack of physiologically relevant in vitro models. This study aimed to understand the effect of matrikine stimulation, using human recombinant fibronectin fragment containing domains 7–10 (FN7–10), on equine synovial fibroblasts and chondrocytes. Inflammatory cytokines, chemokines, and matrix degradation genes in equine synovial fibroblasts and chondrocytes were significantly altered in response to FN7–10 stimulation; marked upregulation was observed in interleukin-6 (IL-6), IL-4, IL-10, matrix metalloproteinase 1 (MMP1), MMP3, MMP13, CCL2/MCP1, and CXCL6/GCP-2 gene expression. Only IL-6 protein production was significantly increased in media isolated from cells stimulated with FN7–10. These results support the potential use of equine synovial fibroblasts and chondrocytes—employing FN7–10—as representative in vitro models to study OA. Supported by ORIP (T32OD011130) and NIAMS.
A Switch from Glial to Neuronal Gene Expression Alterations in the Spinal Cord of SIV-Infected Macaques on Antiretroviral Therapy
Mulka et al., Journal of Neuroimmune Pharmacology. 2024.
https://pubmed.ncbi.nlm.nih.gov/38862787/
Up to one-third of patients with HIV experience HIV-associated peripheral neuropathy, affecting sensory pathways in the spinal cord. Spinal cord sampling is limited in people with HIV. Researchers examined gene expression alterations in the spinal cords of simian immunodeficiency virus (SIV)-infected male pigtail macaques with and without antiretroviral therapy (ART), using RNA sequencing at key time points throughout infection. Results indicate a shift from glial cell-associated pathways to neuronal pathways in SIV-infected animals receiving ART. These findings suggest that neurons, rather than glia, are predominantly involved in ART-related neurotoxicity and offer new insights into therapeutic strategies for maintaining synaptic homeostasis. Supported by ORIP (U42OD013117, T32OD011089) and NINDS.
Lipid Nanoparticle-Mediated mRNA Delivery to CD34+ Cells in Rhesus Monkeys
Kim et al., Nature Biotechnology. 2024.
https://pubmed.ncbi.nlm.nih.gov/39578569
Blood cells, which are derived from hematopoietic stem cells (HSCs), promote pathologies including anemia, sickle cell disease, immunodeficiency, and metabolic disorders when dysfunctional. Because of the morbidity that results from the bone marrow mobilization and chemotherapy patient conditioning of current HSC therapies, novel treatment strategies that deliver RNA to HSCs are needed. Researchers found a lipid nanoparticle (LNP), LNP67, that delivers messenger RNA (mRNA) to murine HSCs in vivo and human HSCs ex vivo without the use of a cKit-targeting ligand. When tested in 7- to 8-month-old male and female rhesus monkeys, LNP67 successfully delivered mRNA to CD34+ cells and liver cells without adverse effects. These results show the potential translational relevance of an in vivo LNP–mRNA drug. Supported by ORIP (U42OD027094, P51OD011107), NIDDK, and NCATS.
Immune Gene Regulation Is Associated With Age and Environmental Adversity in a Nonhuman Primate
Watowich et al., Molecular Ecology. 2024.
https://pubmed.ncbi.nlm.nih.gov/39032090
The mammalian aging process involves a decline in physiological function, influenced by molecular mechanisms like epigenetic changes. These processes have been studied in controlled settings, however the role of aging in naturalistic populations remains unclear. This study explored the effects of environmental stressors (i.e., Hurricane Maria) on DNA methylation in free-living male and female rhesus macaques in Cayo Santiago, Puerto Rico. Results showed that environmental adversity accelerated age-related molecular changes, especially in gene transcription regions, while primary aging mainly affected nonregulatory regions. These findings highlight how the biology of aging is influenced by environmental factors. Supported by ORIP (P40OD012217), NIA, and NIMH.