Selected Grantee Publications
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- Other Animal Models
- Invertebrate Models
The Effect of Common Paralytic Agents Used for Fluorescence Imaging on Redox Tone and ATP Levels in Caenorhabditis elegans
Morton et al., PLOS One. 2024.
https://pubmed.ncbi.nlm.nih.gov/38669260
Caenorhabditis elegans is a highly valuable model organism in biological research. However, these worms must be paralyzed for most imaging applications, and the effect that common chemical anesthetics may have on the parameters measured—especially biochemical measurements such as cellular energetics and redox tone—is poorly understood. In this study, the authors used two reporters—QUEEN-2m for relative ATP levels and reduction-oxidation–sensitive green fluorescent protein for redox tone—to assess the impact of commonly used chemical paralytics. The results show that all chemical anesthetics at doses required for full paralysis alter redox tone and/or ATP levels, and anesthetic use alters the detected outcome of rotenone exposure on relative ATP levels and redox tone. Therefore, it is important to tailor the use of anesthetics to different endpoints and experimental questions and to develop less disruptive paralytic methods for optimal imaging of dynamic in vivo reporters. Supported by ORIP (P40OD010440, R44OD024963) and NIEHS.
A Review of CD4+ T Cell Differentiation and Diversity in Dogs
Lang et al., Veterinary Immunology and Immunopathology. 2024.
https://pubmed.ncbi.nlm.nih.gov/39173398
CD4+ T cells are an important component of both the adaptive immune response and immune maintenance. They carry out many functions and can differentiate into numerous specialized subsets, including T helper type 1 (TH1), TH2, TH9, TH17, and TH22 cells; regulatory T cells; and follicular T helper cells. CD4+ T cells also have the capacity for long-term immunological memory and rapid reactivation upon secondary exposure. However, our understanding of the role of CD4+ T cells in immune response is largely based on studies in mice, humans, and—to a lesser extent—pigs. Comparatively, our understanding of CD4+ T cells in canines is much less complete. This review summarizes the current understanding of canine CD4+ T cells from a comparative perspective by highlighting both the similarities and differences from mouse, human, and pig CD4+ T-cell biology. Supported by ORIP (K01OD027058).
Alterations in Tumor Aggression Following Androgen Receptor Signaling Restoration in Canine Prostate Cancer Cell Lines
Vasilatis et al., International Journal of Molecular Sciences. 2024.
https://pubmed.ncbi.nlm.nih.gov/39201315
Prostate cancer (PCa) ranks second worldwide in cancer-related mortality, but only a few animal models exhibit naturally occurring PCa that recapitulates the symptoms of the disease. Neutered dogs have an increased risk of PCa and often lack androgen receptor (AR) signaling, which is involved in upregulating tumorigenesis but can also suppress aggressive cell growth. In this study, researchers sought to understand more about the role of AR signaling in canine PCa initiation and progression by restoring AR in canine PCa cell lines and treating them with dihydrotestosterone. One cell line exhibited AR-mediated tumor suppression; one cell line showed altered proliferation (but not migration or invasion); and a third cell line exhibited AR-mediated alterations in migration and invasion (but not proliferation). The study highlights the heterogeneous nature of PCa in dogs and humans but suggests that AR signaling might have therapeutic potential under certain conditions. Supported by ORIP (T32OD011147).
Canine RNF170 Single Base Deletion in a Naturally Occurring Model for Human Neuroaxonal Dystrophy
Cook et al., Movement Disorders. 2024.
https://pubmed.ncbi.nlm.nih.gov/39177409/
A newly recognized progressive neurodegenerative disorder in Miniature American Shepherd (MAS) dogs affects gait in young adult dogs and is characterized by pelvic limb weakness and ataxia. The authors of this study used genetic analysis to map the underlying cause of the disorder, a single base-pair deletion in the ring finger protein 170 (RNF170) gene that was predicted to cause early truncation of the RNF170 protein. RNF170 variants previously were identified in human patients with spastic paraplegia-85 (SPG85) who exhibit similar clinical and pathological phenotypes to RNF170-mutant dogs. SPG85 belongs to a group of inherited neurodegenerative disorders collectively referred to as neuroaxonal dystrophy (NAD). The authors of this paper propose that RNF170-mutant MAS dogs serve as a large animal model to study underlying mechanisms and therapeutics for NAD. Supported by ORIP (K01OD027051).
Acquired Dysfunction of CFTR Underlies Cystic Fibrosis-Like Disease of the Canine Gallbladder
Gookin et al., American Journal of Physiology-Gastrointestinal and Liver Physiology. 2024.
https://pubmed.ncbi.nlm.nih.gov/39041675/
Mucocele formation in dogs is pathologically similar to cystic fibrosis. In this study, researchers investigated the role of cystic fibrosis transmembrane conductance regulator (CFTR) in the pathogenesis of the disease. They determined the location and frequency of disease-associated variants in the coding region of CFTR using whole-genome sequence data from 2,642 dogs representing breeds at low risk, high risk, or with confirmed disease. The authors’ findings establish significant loss of CFTR-dependent anion secretion by mucocele gallbladder mucosa. There were no significant differences in CFTR gene variant frequency, type, or predicted impact comparing low-risk, high-risk, and definitively diagnosed groups of dogs. Their results suggest a disease of the canine gallbladder that is similar to cystic fibrosis and is driven by CFTR dysfunction. Supported by ORIP (T35OD011070, K01OD027058).
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.
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.
The Gene Expression Profile and Cell of Origin of Canine Peripheral T-Cell Lymphoma
Owens et al., BMC Cancer. 2024.
https://pubmed.ncbi.nlm.nih.gov/38166662/
Peripheral T-cell lymphoma (PTCL) refers to a heterogenous group of T-cell neoplasms with poor treatment responses and survival times. Canine PTCL clinically and immunophenotypically resembles the most common human subtype, PTCL-NOS (PTCL-not otherwise specified), and is a naturally occurring model for human PTCL. Gene expression profiling in human PTCL-NOS has helped characterize this ambiguous diagnosis into distinct subtypes, but similar gene expression profiling in canine PTCL is lacking. Canine CD4+ PTCL most closely resembles the GATA3-PTCL subtype of PTCL-NOS and may originate from an earlier stage of T-cell development than the more conventionally posited mature T-helper cell origin. Supported by ORIP (T32OD010437).
Conduction-Dominated Cryomesh for Organism Vitrification
Guo et al., Advanced Science. 2024.
https://pubmed.ncbi.nlm.nih.gov/38018294/
Vitrification-based cryopreservation via cryomesh is a promising approach for maintaining biodiversity, health care, and sustainable food production via long-term preservation of biological systems. Here, researchers conducted a series of experiments aimed at optimizing the cooling and rewarming rates of cryomesh to increase the viability of various cryopreserved biosystems. They found that vitrification was significantly improved by increasing thermal conductivity, reducing mesh wire diameter and pore size, and minimizing the nitrogen vapor barrier of the conduction-dominated cryomesh. Cooling rates increased twofold to tenfold in a variety of biosystems. The conduction-dominated cryomesh improved the cryopreservation outcomes of coral larvae, Drosophila embryos, and zebrafish embryos by vitrification. These findings suggest that the conduction-dominated cryomesh can improve vitrification in such biosystems for biorepositories, agriculture and aquaculture, and research. Supported by ORIP (R24OD028444, R21OD028758, R24OD034063, R21OD028214), NIDDK, and NIGMS.