Selected Grantee Publications
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- 247 results found
- HIV/AIDS
- Neurological
SIV Infection Is Associated With Transient Acute-Phase Steatosis in Hepatocytes In Vivo
Derby, Viruses. 2024.
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10892327/
Metabolic dysfunction–associated fatty liver disease (MAFLD) in people with HIV has become an increasing concern, but little is known about liver-specific changes underlying HIV-related MAFLD. Using rhesus macaques (sex not specified), researchers examined the timing of pathogenic changes within the liver during simian immunodeficiency virus (SIV) infection. Their findings suggest differential pathologies associated with the acute and chronic phases of infection. This work highlights the early damage inflicted on the liver by SIV/HIV infection and indicates that damage to the hepatocytes plays a specific role. Overall, the authors conclude that therapeutic interventions targeting metabolic function may benefit liver health in people who have recently received an HIV diagnosis. Supported by ORIP (P51OD011107, P51OD011092) and NIAID.
Cdk8/CDK19 Promotes Mitochondrial Fission Through Drp1 Phosphorylation and Can Phenotypically Suppress Pink1 Deficiency in Drosophila
Liao et al., Nature Communications. 2024.
https://www.nature.com/articles/s41467-024-47623-8
Pink1 is a mitochondrial kinase implicated in Parkinson’s disease and is conserved among humans, rodents, and flies. In this study, researchers found that Cdk8 in Drosophila (i.e., the orthologue of vertebrate CDK8 and CDK19) promotes the phosphorylation of Drp1 (i.e., a protein required for mitochondrial fission) at the same residue as Pink1. Cdk8 is expressed in both the cytoplasm and nucleus, and neuronal loss of Cdk8 reduces fly life span and causes bang sensitivity and elongated mitochondria in both muscles and neurons. Overexpression of Cdk8 suppresses elevated levels of reactive oxygen species, mitochondrial dysmorphology, and behavioral defects in flies with low levels of Pink1. These findings suggest that Cdk8 regulates Drp1-mediated mitochondrial fission in a similar manner as Pink1 and may contribute to the development of Parkinson’s disease. Supported by ORIP (R24OD022005, R24OD031447, P40OD018537, P40OD010949), NICHD, and NINDS.
Identifying Potential Dietary Treatments for Inherited Metabolic Disorders Using Drosophila Nutrigenomics
Martelli et al., Cell Reports. 2024.
https://www.sciencedirect.com/science/article/pii/S221112472400189X?via%3Dihub=
Inherited metabolic disorders are known to cause severe neurological impairment and child mortality and can sometimes respond to dietary treatment; however, a suitable paradigm for testing diets is lacking for developing effective dietary treatment. In this study, researchers found that 26 of 35 Drosophila amino acid disorder models screened for disease–diet interactions displayed diet-altered development and/or survival. Among these models, researchers showed that dietary cysteine depletion normalizes metabolic profile and rescues development, neurophysiology, behavior, and life span in a model for isolated sulfite oxidase deficiency. These findings demonstrate the value of using Drosophila in studying diet-sensitive metabolic disorders and developing potential dietary therapies. Supported by ORIP (R24OD031447) and NHGRI.
Potent Antibody-Dependent Cellular Cytotoxicity of a V2-Specific Antibody Is Not Sufficient for Protection of Macaques Against SIV Challenge
Grunst et al., PLOS Pathogens. 2024.
https://pubmed.ncbi.nlm.nih.gov/38252675/
Antibody-dependent cellular cytotoxicity (ADCC) has been correlated with decreased risk of HIV acquisition. Researchers tested the ability of PGT145, an antibody that neutralizes genetically diverse HIV-1 isolates, to protect rhesus macaques against simian immunodeficiency virus (SIV) via ADCC activity. They found that a single amino acid substitution in the V2 core epitope of the SIV envelope increases PGT145 binding and confers sensitivity to neutralization. Peak and chronic phase viral loads were lower, and time to peak viremia was delayed. They concluded that ADCC is insufficient for protection by this antibody, but increasing the affinity of antibody binding could confer partial protection. Supported by ORIP (P51OD011106), NIAID, and NCI.
SHIV-C109p5 NHP Induces Rapid Disease Progression in Elderly Macaques with Extensive GI Viral Replication
Bose et al., Journal of Virology. 2024.
https://pubmed.ncbi.nlm.nih.gov/38299866/
Researchers are interested in developing animal models infected with simian–human immunodeficiency virus (SHIV) to better understand prevention of HIV acquisition. Researchers generated pathogenic SHIV clade C transmitted/founder stock by in vivo passage using geriatric rhesus macaques of both sexes. They reported that the infection resulted in high sustained viral loads and induced rapid pathology and wasting, necessitating euthanasia between 3 and 12 weeks post-infection. The extensive viral replication in gut and lymphoid tissues indicated a fit viral stock. This work provides a new nonhuman primate model for HIV pathogenicity and cure studies. Supported by ORIP (R24OD010947) and NIDDK.
Macrophages Derived From Human Induced Pluripotent Stem Cells (iPSCs) Serve As a High-Fidelity Cellular Model for Investigating HIV-1, Dengue, and Influenza viruses
Yang et al., Journal of Virology. 2024.
https://pubmed.ncbi.nlm.nih.gov/38323811/
Macrophages can be weaponized by viruses to host viral reproduction and support long-term persistence. The most common way of studying these cells is by isolating their precursors from donor blood and differentiating the isolated cells into macrophages. This method is costly and technically challenging, and it produces varying results. In this study, researchers confirmed that macrophages derived from iPSC cell lines—a model that is inexpensive, consistent, and modifiable by genome editing—are a suitable model for experiments involving HIV and other viruses. Macrophages derived from iPSCs are as susceptible to infection as macrophages derived from blood, with similar infection kinetics and phenotypes. This new model offers researchers an unlimited source of cells for studying viral biology. Supported by ORIP (R01OD034046, S10OD021601), NIAID, NIDA, NIGMS, and NHLBI.
Induction of Durable Remission by Dual Immunotherapy in SHIV-Infected ART-Suppressed Macaques
Lim et al., Science. 2024.
https://pubmed.ncbi.nlm.nih.gov/38422185/
The latent viral reservoir is established within the first few days of HIV infection and remains a barrier to a clinical cure. Researchers characterized the effects of a combined Anktiva (N-803) treatment with broadly neutralizing antibodies (bNAbs) using male and female rhesus macaques infected with simian–human immunodeficiency virus infection. Their data suggest that these agents synergize to enhance CD8+ T-cell function, particularly when multiple bNAbs are used. Taken together, this work indicates that immune-mediated control of viral rebound is not a prerequisite for sustained remission after discontinuation of antiretroviral therapy and that immune-mediated control of viral rebound is achievable, sufficient, and sustainable in this model. Supported by ORIP (P51OD011106, P40OD028116, R24OD011195) and NIAID.
TGF-β Blockade Drives a Transitional Effector Phenotype in T Cells Reversing SIV Latency and Decreasing SIV Reservoirs In Vivo
Kim et al., Nature Communications. 2024.
https://pubmed.ncbi.nlm.nih.gov/38355731/
Interruption of antiretroviral therapy leads to rapid rebound of viremia due to the establishment of a persistent viral reservoir early after infection. Using a treatment regimen similar to the one tested in clinical trials, the authors show how galunisertib affects immune cell function, increases simian immunodeficiency virus (SIV) reactivation, and reduces the viral reservoir in female rhesus macaques. Their findings reveal a galunisertib-driven shift toward an effector phenotype in T and natural killer cells. Taken together, this work demonstrates that galunisertib, a clinical-stage TGF-β inhibitor, reverses SIV latency and decreases SIV reservoirs by driving T cells toward an effector phenotype, enhancing immune responses in vivo in the absence of toxicity. Supported by ORIP (R24OD010947), NIAID, and NCI.
De Novo Variants in FRYL Are Associated With Developmental Delay, Intellectual Disability, and Dysmorphic Features
Pan et al., The American Journal of Human Genetics. 2024.
https://www.cell.com/ajhg/fulltext/S0002-9297(24)00039-9
FRY-like transcription coactivator (FRYL) belongs to a Furry protein family that is evolutionarily conserved from yeast to humans, and its functions in mammals are largely unknown. Investigators report 13 individuals who have de novo heterozygous variants in FRYL and one individual with a heterozygous FRYL variant that is not confirmed to be de novo. The individuals present with developmental delay; intellectual disability; dysmorphic features; and other congenital anomalies in cardiovascular, skeletal, gastrointestinal, renal, and urogenital systems. Using fruit flies, investigators provide evidence that haploinsufficiency in FRYL likely underlies a disorder in humans with developmental and neurological symptoms. Supported by ORIP (U54OD030165), NHLBI, NICHD, and NCATS.
CDK4/6 Inhibition Sensitizes Intracranial Tumors to PD-1 Blockade in Preclinical Models of Brain Metastasis
Nayyer et al., Clinical Cancer Research. 2024.
Brain metastases are associated with high morbidity and are often resistant to immune checkpoint inhibitors. In this study, investigators evaluated the efficacy of combining CDKi (abemaciclib) and anti–PD-1 therapy (“combination therapy”) in mouse models for brain metastases, elucidated how combination therapy remodeled the tumor–immune microenvironment (TIME) and T-cell receptor (TCR) repertoires, and investigated the effects of CDKi on T-cell development and maintenance in NOD-scid Il2rgnull (NSG) mice engrafted with human immune systems (“humanized mice”). Results offer a strong rationale for the clinical evaluation of combination CDKi and PD-1 blockade in patients with brain metastases. Supported by ORIP (R24OD026440), NCI, and NIAID.