Angela K. Odle

Assistant Professor

University of Arkansas for Medical Sciences

faculty

Neurobiology & Developmental Science, College of Medicine

17 h-index 69 pubs 1,107 cited

Research Areas

Links

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OverviewAI-generated summary

Angela K. Odle investigates the molecular mechanisms underlying metabolic regulation of reproductive function and neural processes. Her research examines how diet, oxidative stress, and specific RNA-binding proteins, such as Musashi, influence gene expression and translation in the anterior pituitary gland. Odle's work has explored the impact of high-fat diets on pituitary transcriptomics and the role of leptin receptor signaling in somatotrope maturation. Additionally, she studies mechanisms of ovarian oxidative stress induced by chemotherapy and potential interventions. Her research network includes key collaborators Gwen V. Childs, Angus M. Macnicol, Melanie Clair Macnicol, and Anessa Haney, all at the University of Arkansas for Medical Sciences, with whom she has co-authored numerous publications.

Metrics

h-index: 17
Publications: 69
Citations: 1,107

Selected Publications

OR13-08 Secretoneurin Modulates Gonadotrope Function Cyclically to Regulate LH Secretion (2025) DOI
SAT-001 Impact of VCD-induced Menopause on Gonadotrope Transcriptomics Reveals Estrogen-dependent Genes in the GnRH Signaling Pathway (2025) DOI
SAT-016 Musashi Contributes to the Specification and Maintenance of Distinct Pituitary Cell Lineages. (2025) DOI
High fat diet-induced loss of pituitary plasticity in aging female mice with ablated leptin signaling in somatotropes (2025) DOI
Ablation of Leptin Receptor Signaling Alters Somatotrope Transcriptome Maturation in Female Mice (2025) DOI
Solving the Mystery of the Neonatal GH Surge (2024) DOI
8572 A 30% Maternal Caloric Restriction Alters Expression of Musashi Targets in the Neonatal and Adult Pituitary Proteomes of FVB Mice (2024) DOI
8649 Ablation of Leptin Receptors in Somatotropes Impacts Transcriptomic Plasticity in the Pou1f1 Lineage of Female Pituitary Cells (2024) DOI
The Musashi RNA binding proteins direct the translational activation of key pituitary mRNAs (2024) DOI
Maternal undernutrition results in transcript changes in male offspring that may promote resistance to high fat diet induced weight gain (2024) DOI
Anterior Pituitary Transcriptomics Following a High-Fat Diet: Impact of Oxidative Stress on Cell Metabolism (2023) DOI
FRI290 Proteomic Identification Of Secretoneurin-Stimulated Proteins In Purified Mouse Gonadotropes (2023) DOI
OR20-03 Leptin-mediated Regulation Of Gene Regulatory Networks In Gonadotropes (2023) DOI
THU043 Single-cell Transcriptomics Show Sex-specific Responses To A High Fat Diet, Under Thermoneutral Conditions, Pointing To Reduced Pituitary Plasticity (2023) DOI
Musashi Exerts Control of Gonadotrope Target mRNA Translation During the Mouse Estrous Cycle (2023) DOI

Grants & Funding

Enhancement Project to Improve Access to Food Services and Mental Well-Being Administration for Community Living Principal Investigator
The Impact of Obesity on Somatotrope Function NIH Co-Investigator
Post-transcriptional Pathways that Signal Leptin Regulation of Gonadotropes NIH Co-Investigator
The Significance of Leptin Signals to Neonatal Somatotropes and Gonadotropes NIH Co-Investigator
Molecular mechanisms of pituitary plasticity NIH/Nat. Inst. of Diabetes & Digestive & Kidney Diseases Co-Investigator