As an extension of NASA Ames’ long history and sustaining international collaboration for sharing tissues acquired from one-off spaceflight experiments, we have recently established a new mobile operation for acquiring small animal biospecimens from ongoing ground-based studies supported by the NASA Human Research Program (HRP) organized at Johnson Space Center (JSC). Goals of Ames’ Biospecimen Sharing Programs (BSPs) are to: (1) advance understanding of physiological responses and adaptations to the space environment utilizing animal models in support of fundamental space and gravitational biology research, and to promote human health in space and on Earth, (2) provide a repository of high-quality, well-preserved, and carefully archived and maintained biospecimens by applying modern approaches and established best practices in the biobanking field, and (3) establish a database for gathering broad and comprehensive scientific information corresponding to these samples, including cutting edge techniques for tracking and archiving of structural, descriptive, and administrative metadata. This program, modeled after contemporary human and animal biobanking initiatives, is yielding a rich archive of quality specimens that can be used to address a broad range of current and future scientific questions relevant to NASA Life Sciences, Exploration Medicine, and beyond.
In spaceflight experiments, model organisms are used to assess the effects of microgravity on specific biological systems. In many cases, only one biological system is of interest to the Principal Investigator. To maximize the scientific return of experiments, the remaining spaceflight tissue is categorized, documented, and stored in the biobank at NASA Ames Research Center, which is maintained by the Ames Life Science Data Archive (ALSDA). The purpose of this study is to evaluate the state of a sample set of tissues from the ALSDA biobank. Garnering information – such as downstream functional analysis for the generation of omics datasets – from tissues is, in part, dependent on the state of sample preservation. RNA integrity number (RIN) values have been calculated for rodent liver tissues that were part of scientific payloads returned from the International Space Station (ISS). Rat livers from Spacelab Life Sciences 1 (SLS-1) and mouse livers from Commercial Biomedical Test Module 3 (CBTM-3), Rodent Research 1 (RR1), and Rodent Research 3 (RR3) were tested. It was found that mean RIN values from CBTM-3, RR1, and RR3 were suitable for downstream functional analysis (RIN > 5) while the mean RIN value for SLS-1 was not (RIN = 2.5 ± 0.1). Information from this study lays the foundation for future efforts in determining the types of assays that are most appropriate for different tissues in the ALSDA biobank and similar preservation facilities, which would aid in shaping the design of experiments.
Spaceflight experiments have utilized model organisms for decades to assess effects of microgravity on biological systems. In many of those experiments, obtaining and assessing tissues from only a few biological systems are of interest to their Principal Investigators. To maximize scientific return from space flown experiments, the remaining tissues are captured, curated, and preserved in the Institutional Scientific Collection (ISC) at NASA Ames Research Center. The international scientific community is encouraged to request these available tissues through NASA’s ISC Biospecimen Sharing Program, and conduct research furthering insights into the field of space biology. The purpose of this study is to evaluate viability of tissues which have been archived for differing lengths of time within the NASA ISC. Garnering information from the NASA ISC tissues – such as downstream functional analysis for the generation of omics datasets – is partly dependent on the state of sample preservation. RNA integrity number (RIN) values were calculated for rodent liver tissues that were part of spaceflight scientific payloads. Rat livers were tested from Spacelab Life Sciences 1 (SLS‐1; 1991), as were mouse livers from Commercial Biomedical Test Module 3 (CBTM‐3; 2011), Rodent Research 1 (RR1; 2014), and Rodent Research 3 (RR3; 2016). It was found that mean RIN values from CBTM‐3, RR1, and RR3 were suitable for downstream functional analysis (RIN > 5), while the mean RIN value for SLS‐1 was not (RIN = 2.5 ± 0.1). This work to analyze RIN values of NASA ISC liver tissues will inform future investigators in their tissue and assay selections. This study lays the foundation for future efforts to understand the quality and viability of different tissues archived within the NASA ISC biospecimen repository. Support or Funding Information NASA Ames Research Center
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