The Mice Drawer System Tissue Sharing Program (MDS-TSP)
Abstract
Several organs and apparatus are affected by weightless conditions and in particular by the weightless experienced during space flights. Therefore space missions are good opportunities to investigate in a whole organism the controlling cellular and molecular mechanisms. For this type of studies mice represent an excellent animal model for several reasons: reduced body size, relatively short time needed to reach adulthood, availability of strains with different genetic background and of different transgenic lines, etc. In line with the International Space Station (ISS) development, the Italian Space Agency (ASI) contracted Thales Alenia Space Italia, the largest Italian aerospace industry, to design and build a spaceflight payload for rodent research on ISS, the Mouse Drawer System (MDS -see abstract P. Cipparelli et al.). This payload meets NIH guideline for several physical parameters to maintain 6 animals in good health conditions in a space environment. Given the interest of our laboratory in the microgravity induced skeleton alterations, we focused our attention on transgenic mice over-expressing pleiotrophin (PTN) under the control of the human bone specific osteocalcin promoter. This protein is a heparin-binding cytokine with different functions. PTN is expressed by the cells in an early differentiation stage and is upregulated in tissue injury and wound repair. PTN is specifically involved in bone formation, neurite outgrowth and angiogenesis. As PTN-transgenic mice show an increased bone mass and mineralization, we decided to use this mouse model in the flight experiment and to study its potential role in counteracting bone loss in microgravity. Not all mouse strains are equally suitable for flight. After preliminary tests in the MDS breadboard at our animal facility on the behavior of different mouse strains, PTN-transgenic mice originally obtained in the BDF strain were backcrossed in the C57Bl/J10 strain before being used in this study. In order to obtain from the animals sent to the ISS as much as possible information including also microgravity induced modifications of tissues other than bone, we associated to the MDS experiment several international group from Italian, American, Japanese Universities and from NASA and JAXA labs and we created a Tissue Sharing Program (TSP). In total 17 groups from 6 countries were involved in the program. The MDS payload containing three PTN-transgenic mice (Tg) and three wild type (Wt) mice was launched with the Shuttle STS-128, on August, 28 2009 and the MDS transferred to the ISS for three months. The payload re-entry was with the Shuttle STS-129 on November, 27 2009 in Florida. Unfortunately during this period 3 mice (two Wt and one Tg) died due to a spinal cord lesion probably occurred during the shuttle lift off, a liver pathology and a failure of the food delivery system respectively. All the three dead mice were however frozen for subsequent skeletal analysis. The remaining 3 mice had a normal behavior during the flight and appeared in excellent health conditions at the time of landing. During the MDS stay at the ISS several physical parameters were under daily check. With regard to the animal health status checking, the daily water consumption for each individual mouse revealed to be one of the most important parameter. Immediately after landing the mice were sacrificed, blood parameter were measured and all different tissues were dissected. Samples from almost the entire organism are now under investigation by the TSP team. A ground replica of the flight experiment ("ground control") was performed at the University of Genova from November 2009 to the second week of February 2010. Some of the initial results from the flight and the ground control experiments are presented in the individual abstracts.
- Publication:
-
38th COSPAR Scientific Assembly
- Pub Date:
- 2010
- Bibcode:
- 2010cosp...38.3060B