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- Preservation
- Spectrometry
Establishing the Hybrid Rat Diversity Program: A Resource for Dissecting Complex Traits
Dwinell et al., Mammalian Genome. 2025.
https://pubmed.ncbi.nlm.nih.gov/39907792
Rat models have been extensively used for studying human complex disease mechanisms, behavioral phenotypes, and environmental factors and for discovering and developing drugs. Systems genetics approaches have been used to study the effects of both genetic variation and environmental factors. This approach recognizes the complexity of common disorders and uses intermediate phenotypes to find relationships between genetic variation and clinical traits. This article describes the Hybrid Rat Diversity Program (HDRP) at the Medical College of Wisconsin, which involves 96 inbred rat strains and aims to provide a renewable and reusable resource in terms of the HRDP panel of inbred rat strains, the genomic data derived from the HRDP strains, and banked resources available for additional studies. Supported by ORIP (R24OD024617) and NHLBI.
Peripherally Mediated Opioid Combination Therapy in Mouse and Pig
Peterson et al., The Journal of Pain. 2025.
https://pubmed.ncbi.nlm.nih.gov/39542192
This study evaluates novel opioid combinations for pain relief with reduced side effects. Researchers investigated loperamide (a μ-opioid agonist) with either oxymorphindole or N‑benzyl-oxymorphindole—both δ-opioid receptor partial agonists—in mice (male and female) and pigs (male). These combinations produced synergistic analgesia across species without causing adverse effects or respiratory depression. The therapies significantly reduced hypersensitivity in post-injury models, outperforming morphine alone. These findings suggest that peripherally acting opioid combinations can offer effective, safer alternatives for pain management, potentially lowering opioid misuse and side effects. This approach could improve clinical strategies for treating chronic and acute pain with limited central opioid exposure. Supported by ORIP (T32OD010993), NHLBI, and NIDA.
Plural Molecular and Cellular Mechanisms of Pore Domain KCNQ2 Encephalopathy
Abreo et al., eLife. 2025.
https://pmc.ncbi.nlm.nih.gov/articles/PMC11703504
This study investigates the cellular and molecular mechanisms underlying KCNQ2 encephalopathy, a severe type of early-onset epilepsy caused by mutations in the KCNQ2 gene. Researchers describe a case study of a child with a specific KCNQ2 gene mutation, G256W, and found that it disrupts normal brain activity, leading to seizures and developmental impairments. Male and female Kcnq2G256W/+ mice have reduced KCNQ2 protein levels, epilepsy, brain hyperactivity, and premature deaths. As seen in the patient study, ezogabine treatment rescued seizures in mice, suggesting a potential treatment avenue. These findings provide important insights into KCNQ2-related epilepsy and highlight possible therapeutic strategies. Supported by ORIP (U54OD020351, S10OD026804, U54OD030187), NCI, NHLBI, NICHD, NIGMS, NIMH, and NINDS.
Zebrafish as a High Throughput Model for Organ Preservation and Transplantation Research
Da Silveira Cavalcante et al., The FASEB Journal. 2023.
https://faseb.onlinelibrary.wiley.com/doi/10.1096/fj.202300076R
Organ transplantation increases the quality of life and life expectancy of patients with chronic end-stage diseases, but the preservation of organs for transplantation remains a significant barrier. In the current study, researchers demonstrate the value of zebrafish as a high-throughput model organism in the fields of solid-organ preservation and transplantation, with a focus on heart preservation via partial freezing. Their techniques have the potential to advance research in the fields of cryobiology and solid-organ transplantation. Supported by ORIP (R24OD031955) and NHLBI.
Rapid Joule Heating Improves Vitrification Based Cryopreservation
Zhan et al., Nature Communications. 2022.
https://www.doi.org/10.1038/s41467-022-33546-9
Cryopreservation by vitrification is an effective approach for long-term preservation of biosystems, but effective vitrification often requires high concentrations of cryoprotective agent (CPA), which can be toxic. The investigators described a joule heating–based platform technology for rapid rewarming of biosystems, which allows the use of low concentrations of CPA. They demonstrated the success of this platform in cryopreservation of three model systems: adherent cells, Drosophila melanogaster embryos, and rat kidney slices with low CPA concentrations. This work provides a general solution to cryopreserve a broad spectrum of cells, tissues, organs, and organisms. Supported by ORIP (R21OD028758), NIDDK, NHLBI, and NIGMS.
Effects of Ex Vivo Blood Anticoagulation and Preanalytical Processing Time on the Proteome Content of Platelets
Yunga et al., Journal of Thrombosis and Haemostasis. 2022.
https://www.doi.org/10.1111/jth.15694
The investigators studied how various blood anticoagulation options and processing times affect platelet function and protein content ex vivo. Using platelet proteome quantification and triple quadrupole mass spectrometry, they found that anticoagulant-specific effects on platelet proteomes included increased complement system and decreased α-granule proteins in platelets from EDTA-anticoagulated blood. Heparinized blood had higher levels of histone and neutrophil-associated proteins, as well as formation of platelet–neutrophil extracellular trap interactions in whole blood ex vivo. The study indicates that different anticoagulants and preanalytical processing times affect platelet function and platelet protein content ex vivo, suggesting more rigorous phenotyping strategies for platelet omics studies. Supported by ORIP (S10OD012246), NHLBI, NCI and NEI.