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1. Transcriptome Analysis Reveals Key Gene Expression Changes in Blue Catfish Sperm in Response to Cryopreservation

   https://doi.org/10.3390/ijms23147618  

   Wang, Haolong; Montague, Helen R.; Hess, Hana N.; Zhang, Ying; Aguilar, Gavin L.; Dunham, Rex A.; Butts, Ian A.; Wang, Xu (July 2022, International Journal of Molecular Sciences)

   The hybrids of female channel catfish (Ictalurus punctatus) and male blue catfish (I. furcatus) account for >50% of US catfish production due to superior growth, feed conversion, and disease resistance compared to both parental species. However, these hybrids can rarely be naturally spawned. Sperm collection is a lethal procedure, and sperm samples are now cryopreserved for fertilization needs. Previous studies showed that variation in sperm quality causes variable embryo hatch rates, which is the limiting factor in hybrid catfish breeding. Biomarkers as indicators for sperm quality and reproductive success are currently lacking. To address this, we investigated expression changes caused by cryopreservation using transcriptome profiles of fresh and cryopreserved sperm. Sperm quality measurements revealed that cryopreservation significantly increased oxidative stress levels and DNA fragmentation, and reduced sperm kinematic parameters. The present RNA-seq study identified 849 upregulated genes after cryopreservation, including members of all five complexes in the mitochondrial electron transport chain, suggesting a boost in oxidative phosphorylation activities, which often lead to excessive production of reactive oxygen species (ROS) associated with cell death. Interestingly, functional enrichment analyses revealed compensatory changes in gene expression after cryopreservation to offset detrimental effects of ultra-cold storage: MnSOD was induced to control ROS production; chaperones and ubiquitin ligases were upregulated to correct misfolded proteins or direct them to degradation; negative regulators of apoptosis, amide biosynthesis, and cilium-related functions were also enriched. Our study provides insight into underlying molecular mechanisms of sperm cryoinjury and lays a foundation to further explore molecular biomarkers on cryo-survival and gamete quality. 

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2. Comparison of Cryopreservation Conditions on the Performance of NISTCHO Cells

   https://doi.org/10.5281/zenodo.13315670  

   Fredericks, J Todd; Milligan, Shanna; Doshi, Hetal; Bryans, Margaret (August 2024, Journal of advanced technological education)

   The NISTCHO cell line is a recombinant Chinese hamster ovary cell line engineered to produce cNISTmAb, a monoclonal antibody that recognizes the fusion F glycoprotein on the surface of respiratory syncytial virus (RSV). These cells are invaluable as a standard reference material for developers of therapeutic monoclonal antibodies and serve as an educational resource in biomanufacturing training programs. This study investigates the performance of NISTCHO cells following cryopreservation at temperatures of -80°C and -150°C. Initial cell viability, maximum cell density in culture, and monoclonal antibody production were compared for cells cryopreserved for up to 30 weeks. Cells were thawed and cultured at two-week intervals to monitor their growth behavior, peak cell densities, and antibody production levels. Analysis of cell behavior in culture revealed no significant differences in cell growth or cell production between cells stored at -80°C and those stored at -150°C. These findings affirm that NISTCHO cells can be preserved at -80°C for up to 30 weeks without any adverse effects on their growth or monoclonal antibody production capabilities, an important finding for training and education programs that rely on -80° C freezers to store cell banks. 

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3. Cryopreservation method for Drosophila melanogaster embryos

   https://doi.org/10.1038/s41467-021-22694-z  

   Zhan, Li; Li, Min-gang; Hays, Thomas; Bischof, John (December 2021, Nature Communications)

   Abstract The development of a widely adopted cryopreservation method remains a major challenge inDrosophilaresearch. Here we report a robust and easily implemented cryopreservation protocol ofDrosophila melanogasterembryos. We present innovations for embryo permeabilization, cryoprotectant agent loading, and rewarming. We show that the protocol is broadly applicable, successfully implemented in 25 distinct strains from different sources. We demonstrate that for most strains, >50% embryos hatch and >25% of the resulting larvae develop into adults after cryopreservation. We determine that survival can be significantly improved by outcrossing to mitigate the effect of genetic background for strains with low survival after cryopreservation. We show that flies retain normal sex ratio, fertility, and original mutation after successive cryopreservation of 5 generations and 6-month storage in liquid nitrogen. Lastly, we find that non-specialists are able to use this protocol to obtain consistent results, demonstrating potential for wide adoption. 

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4. Investigating Nrg1 Signaling in the Regenerating Axolotl Spinal Cord Using Multiplexed FISH

   https://doi.org/10.1002/dneu.22670  

   Freitas, Polina D.; Lovely, Alexander M.; Monaghan, James R. (March 2019, Developmental Neurobiology)

   Abstract Amputation of a salamander tail leads to functional spinal cord regeneration through activation of endogenous stem cells. Identifying the signaling pathways that control cell proliferation in these neural stem cells will help elucidate the mechanisms underlying the salamander’s regenerative ability. Here, we show that neuregulin 1 (Nrg1)/ErbB2 signaling is an important pathway in the regulation of neural stem cell proliferation in the spinal cord of the axolotl salamander (Ambystoma mexicanum). Simultaneous localization ofnrg1mRNA and Nrg1 protein was performed by utilizing a hybridization chain reaction fluorescencein situhybridization (FISH) methodology in tissue sections. Multiplexed FISH also permitted the phenotyping of multiple cell types on a single fixed section allowing the characterization of mRNA expression, protein expression, and tissue architecture. Pharmacological inhibition of ErbB2 showed that intact Nrg1/ErbB2 signaling is critical for adult homeostatic regeneration as well as for injury‐induced spinal cord regeneration. Overall, our results highlight the importance of the NRG1/ErbB2 signaling pathway in neural stem cell proliferation in the axolotl. 

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5. Hybrid incompatibility emerges at the one-cell stage in interspecies Caenorhabditis embryos

   https://doi.org/10.1101/2024.10.19.619171  

   Bloom, Jessica; Green, Rebecca A; Desai, Arshad; Oegema, Karen; Rifkin, Scott A (October 2024, bioRxiv)

   Intrinsic reproductive isolation occurs when genetic differences between populations disrupt the development of hybrid organisms, preventing gene flow and enforcing speciation. While prior studies have examined the genetic origins of hybrid incompatibility, the effects of incompatible factors on development remain poorly understood. Here, we investigate the mechanistic basis of hybrid incompatibility inCaenorhabditisnematodes by capitalizing on the ability ofC. brennerifemales to produce embryos after mating with males from several other species. Contrary to expectations, hybrid incompatibility was evident immediately after fertilization, suggesting that post-fertilization barriers to hybridization originate from physical incompatibility between sperm and oocyte-derived factors rather than from zygotic transcription, which starts after the 4-cell stage. Sperm deliver chromatin, which expands to form a pronucleus, and a pair of centrioles, which form centrosomes that attach to the sperm-derived pronucleus and signal to establish the embryo's anterior-posterior axis. InC. brennerioocytes fertilized withC. eleganssperm, sperm pronuclear expansion was compromised, frequent centrosome detachment was observed, and cortical polarity was disrupted. Live imaging revealed that defective polar body extrusion contributes to defects in mitotic spindle morphology.C. brennerioocytes fertilized withC. remaneiorC. sp. 48sperm showed similar defects, and their severity and frequency increased with phylogenetic distance. Defective expansion of the sperm-derived pronucleus and unreliable polar body extrusion immediately after fertilization generally underlie the inviability of hybrid embryos in this clade. These results indicate that physical mismatches between sperm and oocyte-derived structures may be a primary mechanism of hybrid incompatibility. 

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