Selected Grantee Publications
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- 2024
Engineered Bacteria That Self-Assemble Bioglass Polysilicate Coatings Display Enhanced Light Focusing
Sidor et al., PNAS. 2024.
https://pubmed.ncbi.nlm.nih.gov/39656206
Organisms in nature have evolved to create multifunctional structures with advanced optical properties that can be used to design new optical materials. Researchers created constructs containing the enzyme silicatein, derived from sea sponges, and the outer membrane protein A (OmpA) to engineer Escherichia coli bacteria to express surface-level silicatein enzymes. Using Rhodamine123 staining and transmission electron microscopy, results showed that engineered E. coli expressing OmpA-silicatein displayed polysilicate encapsulation with smooth, nonruffled cell borders compared with wild-type E. coli. Light-scattering analysis demonstrated that engineered E. coli create photonic nanojets that are brighter than wild-type E. coli. This study serves as proof of concept that cells can be engineered for potential utilization as tunable photonic components. Supported by ORIP (S10OD030296) and NIGMS.
SHIV Remission in Macaques With Early Treatment Initiation and Ultra Long-Lasting Antiviral Activity
Daly et al., Nature Communications. 2024.
https://pubmed.ncbi.nlm.nih.gov/39632836
Antiretroviral therapy (ART) suppresses HIV and simian immunodeficiency virus (SIV) replication but cannot eliminate reservoirs of long-lived infected cells that enable rebound after discontinuation of ART. These researchers hypothesized that ART designed to have long-lasting activity and penetrate tissue reservoirs would be optimized against HIV or SIV remission. Macaques were treated with a four-drug regimen (i.e., oral emtricitabine/tenofovir alafenamide and long-acting cabotegravir/rilpivirine) designed to improve dosing of immune cells, with or without the immune-activating drug vesatolimod (VES), after the onset of SIV viremia. The animals were monitored for 1 year with treatment and 2 additional years following treatment discontinuation. Durable viral suppression was observed in all animals treated with the optimized ART regimen with or without VES. These results will inform novel HIV treatment regimens with long-lasting antiviral activity in humans. Supported by ORIP (P40OD028116).
Temperature-Dependent Alterations in the Proteome of the Emergent Fish Pathogen Edwardsiella piscicida
Jacobsen et al., Journal of Fish Diseases. 2024.
https://pubmed.ncbi.nlm.nih.gov/39304982
Reported outbreaks of Edwardsiella piscicida, a bacterial pathogen among cultured and wild fish, have been steadily increasing over the past decade in tandem with climate change–mediated increases in water temperatures. The capacity for this increasingly prevalent fish pathogen to infect and cause disease in mammals is important to understand. Researchers examined the role of temperature on the virulence of E. piscicida to understand its pathogenesis in the context of climate warming trends and better understand its zoonotic potential. Findings revealed downregulation of virulence-related proteins, such as flagellar and Type VI secretion system proteins, at colder temperatures. These findings highlight the potential environmental factors influencing the pathogen’s threat to aquaculture and public health. Supported by ORIP (S10OD026918, T32OD011147).
Extended Survival of 9- and 10-Gene-Edited Pig Heart Xenografts With Ischemia Minimization and CD154 Costimulation Blockade-Based Immunosuppression
Chaban et al., The Journal of Heart and Lung Transplantation. 2024.
https://pubmed.ncbi.nlm.nih.gov/39097214
Heart transplantations are severely constrained from the shortage of available organs derived from human donors. Xenotransplantation of hearts from gene-edited (GE) pigs is a promising way to address this problem. Researchers evaluated GE pig hearts with varying knockouts and human transgene insertions. Human transgenes are introduced to mitigate important physiological incompatibilities between pig cells and human blood. Using a baboon heterotopic cardiac transplantation model, one female and seven male specific-pathogen-free baboons received either a 3-GE, 9-GE, or 10-GE pig heart with an immunosuppression regimen targeting CD40/CD154. Early cardiac xenograft failure with complement activation and multifocal infarcts were observed with 3-GE pig hearts, whereas 9- and 10-GE pig hearts demonstrated successful graft function and prolonged survival. These findings show that one or more transgenes of the 9- and 10-GE pig hearts with CD154 blockade provide graft protection in this preclinical model. Supported by ORIP (U42OD011140) and NIAID.
Impaired Axon Initial Segment Structure and Function in a Model of ARHGEF9 Developmental and Epileptic Encephalopathy
Wang et al., PNAS. 2024.
https://www.pnas.org/doi/10.1073/pnas.2400709121
Researchers developed a mouse model carrying the G55A missense variant identified in ARHGEF9 patients with severe epilepsy and neurodevelopmental phenotypes. Using male Arhgef9G55A mice, this study examined behavioral, molecular, and electrophysiological phenotypes in the Arhgef9G55A model of developmental and epileptic encephalopathies (DEE). Researchers found that the G55A variant causes disruption of inhibitory postsynaptic organization and axon initial segment (AIS) architecture, leading to impairment of both synaptic transmission and action potential generation. The effects of Arhgef9G55A on neuronal function affect both intrinsic and synaptic excitability and preferentially impair AIS. These findings indicate a novel pathological mechanism of DEE and represent a unique example of a neuropathological condition converging from AIS dysfunctions. Supported by ORIP (U54OD020351, U54OD030187, U54OD020351, S10OD026974) and NINDS.
Fetal Bone Engraftment Reconstitutes the Immune System in Pigs With Severe Combined Immunodeficiency
Monarch et al., Lab Animal. 2024.
https://pubmed.ncbi.nlm.nih.gov/39289566/
A valuable preclinical model for studying immune-related pathologies is the severe combined immunodeficiency (SCID) pig through modification of recombination activating gene 2 (RAG2) and interleukin-2 receptor-γ (IL2RG). RAG2/IL2RG double knockout SCID pigs are hard to maintain for breeding and long-term studies because their life span is 8 weeks or less. The researchers investigated fetal allograft transplantation derived from immunocompetent pigs as a strategy for reconstituting the immune system of SCID pigs and promoting survival. Following fetal allograft, SCID pigs demonstrated increased levels of lymphocytes. SCID pigs that received the fetal allograft demonstrated improved body condition and extended life span compared with nonrecipient SCID littermates. This study demonstrates the potential use of fetal allograft transplantation to extend the life span of SCID pigs to breeding age to reduce the resources used to maintain this model for biomedical research. Supported by ORIP (U42OD011140, R21OD027062).
Impaired Skeletal Development by Disruption of Presenilin-1 in Pigs and Generation of Novel Pig Models for Alzheimer's Disease
Uh et al., Journal of Alzheimer's Disease. 2024.
https://pubmed.ncbi.nlm.nih.gov/39177593/
This study explored the effects of presenilin 1 (PSEN1) disruption on vertebral malformations in male and female PSEN1 mutant pigs. Researchers observed significant skeletal impairments and early deaths in pigs with a PSEN1 null mutation, mirroring phenotypes seen in mouse models of Alzheimer’s disease (AD). This porcine model provides valuable insights into pathological hallmarks of PSEN1 mutations in AD, offering a robust platform of therapeutic exploration. The findings establish pigs as an essential translational model for AD, enabling advanced studies on pathophysiology and treatment development for human skeletal and neurological conditions. Supported by ORIP (U42OD011140), NHLBI, NIA, NIAID.
Gene Editing of Pigs to Control Influenza A Virus Infections
Kwon et al., Emerging Microbes & Infections. 2024.
https://pubmed.ncbi.nlm.nih.gov/39083026/
A reduction in the efficacy of vaccines and antiviral drugs for combating infectious diseases in agricultural animals has been observed. Generating genetically modified livestock species to minimize susceptibility to infectious diseases is of interest as an alternative approach. The researchers developed a homozygous transmembrane serine protease 2 (TMPRSS2) knockout (KO) porcine model to investigate resistance to two influenza A virus (IAV) subtypes, H1N1 and H3N2. TMPRSS2 KO pigs demonstrated diminished nasal cavity viral shedding, lower viral burden, and reduced microscopic lung pathology compared with wild-type (WT) pigs. In vitro culturing of primary bronchial epithelial cells (PBECs) demonstrated delayed viral replication in TMPRSS2 KO pigs compared with WT pigs. This study demonstrates the potential use of genetically modified pigs to mitigate IAV infections in pigs and limit transmission to humans. Supported by ORIP (U42OD011140), NHLBI, NIAID, and NIGMS.
The Role of ATP Citrate Lyase in Myelin Formation and Maintenance
Schneider et al., Glia. 2024.
https://pubmed.ncbi.nlm.nih.gov/39318247/
Myelin formation by Schwann cells is critical for peripheral nervous system development and long-term neuronal function. The study examined how acetyl coenzyme A (acetyl-CoA), essential for lipid synthesis in myelin, is derived, with a focus on mitochondrial ATP citrate lysate (ACLY). By using both sexes in a Schwann cell–specific ACLY knockout mouse model, the authors reported that ACLY plays a role in acetyl-CoA supply for myelin maintenance but not myelin formation. ACLY is necessary for sustaining myelin gene expression and preventing nerve injury pathways. This work highlights a unique dependency on mitochondrial acetyl-CoA for Schwann cell integrity, providing insights into lipid metabolism in neuronal repair. Supported by ORIP (T35OD011078), NICHD, and NINDS.
Identifying Mitigating Strategies for Endothelial Cell Dysfunction and Hypertension in Response to VEGF Receptor Inhibitors
Camarda et al., Clinical Science. 2024.
https://pubmed.ncbi.nlm.nih.gov/39282930/
Vascular endothelial growth factor receptor inhibitor (VEGFRi) use can improve survival in patients with advanced solid tumors, but outcomes can worsen because of VEGFRi-induced hypertension, which can increase the risk of cardiovascular mortality. The underlying pathological mechanism is attributed to endothelial cell (EC) dysfunction. The researchers performed phosphoproteomic profiling on human ECs and identified α-adrenergic blockers, specifically doxazosin, as candidates to oppose the VEGFRi proteomic signature and inhibit EC dysfunction. In vitro testing of doxazosin with mouse, canine, and human aortic ECs demonstrated EC-protective effects. In a male C57BL/6J mouse model with VEGFRi-induced hypertension, it was demonstrated that doxazosin prevents EC dysfunction without decreasing blood pressure. In canine cancer patients, both doxazosin and lisinopril improve VEGFRi-induced hypertension. This study demonstrates the use of phosphoproteomic screening to identify EC-protective agents to mitigate cardio-oncology side effects. Supported by ORIP (K01OD028205), NCI, NHGRI, and NIGMS.