OFFICE OF RESEARCH INFRASTRUCTURE PROGRAMS CRYOPRESERVATION 2021 Research and Resources ORIP’S MISSION ORIP advances the NIH mission by supporting orip.nih.gov infrastructure for innovation. This support is focused on research resources, including animal twitter.com/NIH_ORIP models for human diseases, cutting-edge scientific instrumentation, construction and modernization of research facilities, and research training Program Contacts: opportunities for veterinary scientists. Through Miguel Contreras, Ph.D. Desiree von Kollmar continued engagement with NIH Institutes, [email protected] [email protected] Centers, and Offices and the biomedical research Phone: 301-435-0045 Phone: 301-594-9410 community, ORIP empowers and expands existing Oleg Mirochnitchenko, Ph.D. Sige Zou, Ph.D. programs and develops new initiatives to support [email protected] [email protected] NIH research at the forefront of scientific progress. Phone: 301-435-0748 Phone: 301-435-0749 projects on developing efficient OVERVIEW germplasm preservation methods, including cryopreservation, for diverse Animal models are essential to understanding diseases and animal models. These projects maintaining health of humans through development of are improving existing methods diagnostic approaches and therapeutic interventions. These to preserve embryos (including disease models are being generated at an unprecedented NHP embryos), eggs, or sperm rate due to rapidly evolving technological advancements, for a variety of animal model such as gene editing. This rapid increase in animal models, species or are developing new however, is creating challenges in how to maintain these preservation methods, such critical resources in reliable and cost-effective ways. Long- as for zebrafish or Drosophila term preservation of the genetic stock of such models is melanogaster embryos. needed to ensure efficiency, rigor, reproducibility, and trans- Development of effective Cryopreservation tank with parency in biomedical research. germplasm preservation vials. Photo courtesy of the U.S. Department of Agriculture. One solution to these challenges is to use long-term technologies will serve the germplasm preservation methods. ORIP supports preserving entire biomedical research community by preserving haploid model organisms using established practices, including (half) or diploid (full) genetic material and will further invertebrate, aquatic, mouse, rat, pig, and nonhuman promote and conserve valuable animal models for human primate (NHP) models. ORIP also supports research diseases. LONG-TERM PRESERVATION OR CRYOPRESERVATION PRACTICES IN ORIP-SUPPORTED CENTERS Accidents, natural disasters, and other incidents—such as event. The latter approach requires safe and reliable long- pathogen contamination—can impact ORIP-supported distance shipment of stock and the maintenance of a resource centers, resulting in loss of valuable genetic stocks. separate database for efficient strain retrieval when needed. To address this concern, ORIP partnered with the U.S. Department of Agriculture to store backup collections of Long-Term Preservation of Aquatic Genetic Stock Caenorhabditis elegans, zebrafish, other aquatic models, and Collections rodents at the National Laboratory for Genetic Resources The Zebrafish International Resource Center (ZIRC) Preservation (NLGRP) in Fort Collins, Colorado. The NLGRP is is the largest repository of living and cryopreserved the world’s largest agricultural gene bank, storing more than zebrafish genetic stocks (more than 11,000 lines) in the 1 million samples from more than 55,000 animals, including United States. An area of special interest is zebrafish livestock and aquatic species used for food consumption. sperm cryopreservation, which has become essential for The NLGRP’s storage vault, designed to resist earthquakes preserving large numbers of relevant lines for the biomedical and floods, offers automated liquid nitrogen tanks for research community. ZIRC is capable of storing only the cryopreservation that are self-sufficient for up to 4 weeks. haploid genetic material using this approach and lacks the technology to preserve embryos. The Aquatic Germplasm Long-Term Preservation of Caenorhabditis elegans and Genetic Resources Center (AGGRC) at Louisiana Genetic Stock Collections State University is developing reliable cryopreservation The Caenorhabditis methodologies to apply to the NIH-funded Xenopus, Genetics Center (CGC) Ambystoma, and Aplysia stock centers for the establishment supported by ORIP of their own germplasm repositories (repository currently maintains more development). than 22,000 high-quality ORIP also supports development of new technologies, C. elegans Two C. elegans worms. Images genetic strains devices, and methods to improve cryopreservation of courtesy of Dr. Ann Rougvie, for distribution to the aquatic species germplasm/embryos. Technologies under University of Minnesota. research community. development include the following: The CGC routinely uses well-established cryopreservation methods to effectively • A system for tracking the precise location of biological collect and store long term tens of thousands of C. elegans samples in freezers or liquid nitrogen containers stocks. The CGC makes at least three frozen copies of every that includes special vials carrying radio-frequency stock collected: two copies are cryopreserved onsite but in identification technology and companion hardware and different buildings at the University of Minnesota, where the software. CGC is located, and a third copy is transferred to the NLGRP • Construction of an ultrafast cooling device for to protect the CGC collection against any local catastrophic vitrification (the process of rapid cooling of liquid medium in the absence of ice crystal formation, an characterization, tissue biobanking, and cryopreservation to alternative to slow freezing for the cryopreservation of ensure long-term stability and availability. After establishing biological material) of cells and tissues. living colonies for each HRDP strain, re-cryopreservation begins with embryo collection and storage to provide stock Long-Term Preservation of Mouse Genetic Stock maintained at the Medical College of Wisconsin and the Collections RRRC for archiving, distribution, and preparation for disaster As one of the largest biorepositories and genome resources recovery. in the world, the Mutant Mouse Resource and Research Centers (MMRRC) creates, cryobanks, cryorecovers, and distributes scientifically valuable genetically modified mouse models to investigators. After extensive quality control assessments, mouse lines deposited by research scientists into the MMRRC system are cryopreserved in one or more formats, such as sperm, embryos, or embryonic stem (ES) cells. The MMRRC develops and applies a variety of high- fidelity cryopreservation protocols (e.g., slow freezing, rapid freezing, vitrification) defined by multiple critical Sperm and embryos from a biobank of cryopreserved rat strains. Images courtesy of Dr. Elizabeth Bryda, University of Missouri. factors (e.g., cryoprotectant type and concentration, cell type and developmental stage, cooling rate, warming Long-Term Preservation of Pig Genetic Stock rate, cryocontainer type) to prevent cells and tissues from Collections cryodamage caused by cold or osmotic shock (e.g., ice Pluripotent stem (PS) cell biobanking and cryopreservation crystal formation, solution effect, oxidative stress) and ensure are important for regenerative medicine, species cryorecovery. The MMRRC also provides consultation on preservation, and animal biotechnology. To date, however, cryopreservation protocols, practices, and procedures to the lack of stable and bona fide PS cells from pigs and research community, including emergency services. other mammalian species greatly hampers such efforts. Investigators from The University of Texas Southwestern Long-Term Preservation of Rat Genetic Stock Medical Center have successfully derived nine ES cell lines Collections from pig blastocysts using a novel ES cell culture condition Gamete cryopreservation developed in the laboratory. These pig ES cells can be is the optimal method recovered efficiently after multiple freeze/thaw cycles and for archiving rat strains maintain genetic and epigenetic stability after long-term and stocks used in culture, thereby offering invaluable material for animal research. Cryobanking biotechnology. is highly recommended to preserve valuable A rat blastocyst injection. Image Long-Term Preservation of Nonhuman Primate courtesy of Dr. Elizabeth Bryda, rat models; protect Genetic Gametes and Embryos University of Missouri. against model loss The Oregon National Primate Research Center (ONPRC) due to environmental includes support for an Assisted Reproductively Technology disaster, human error, or the need to temporarily reduce (ART) Core, which encompasses macaque sperm and animal colonies, as was experienced during the COVID-19 embryo cryopreservation. Sperm cryopreservation pandemic; and enable genetic refreshment of live colonies represents the gold standard for macaques but is to protect against genetic drift. Methods that allow efficient cumbersome and time consuming. Hence, the ART Core embryo freezing are best for preserving rat models. It also is is exploring and optimizing vitrification and post-thaw possible to cryopreserve rat spermatozoa, although current retrieval methods. Although female gamete (oocyte) approaches are not reliable or routine and require