Phenotypic comparison of four thalassemia model mice reconstructed from cryo-banked embryos.

A major clinical feature of patients with thalassemia is growth retardation due to anemia, therefore, the hematological parameters, weanling weight and post-weanling weight of pups obtained from vitrified warmed embryo transfers were studied for the first time in this report. Two-cell embryos of four transgenic (TG) thalassemic mouse lines (BKO, 654, E2, and E4) were produced by breeding four lines of TG thalassemic males to wild-type (WT) females (C57BL/6J) and were cryopreserved by vitrification in straws using 35% ethylene glycol. After transfer of vitrified-warmed embryos, hematological parameters, spleen index, weanling and post-weanling weight were determined in TG and WT viable pups. In the BKO and 654 mice significantly abnormal hematological parameters and spleen index were observed compared to WT, E2 and E4 mice. The weanling and post-weanling weights of BKO and 654 pups were significantly less than that of the age-matched WT pups. However, no significant differences in weanling and post-weanling weight were found between WT and E2-TG or E4-TG pups. In conclusion, the four transgenic mice lines produced from cryopreserved embryo transfer retain the phenotype of the natural breeding mice indicating that these banked embryos are appropriate for thalassemia model productions.

Impaired bone formation and osteopenia in heterozygous ß(IVSII-654) knockin thalassemic mice.

ß-thalassemia caused by the C→T mutation at nucleotide 654 of the intron 2 (ß(IVSII-654)) results in aberrant splicing of ß-globin RNA, leading to an almost absence of ß-globin synthesis. Although trabecular and cortical bone loss was previously reported in ß-thalassemic mice with deletion of ß-globin gene, the microscopic changes in trabecular structure in ß(IVSII-654) thalassemic mice remained elusive. Here, we investigated the macroscopic and microscopic bone changes in 12-week-old ß(IVSII-654) knockin thalassemic mice by dual-energy X-ray absorptiometry (DXA) and histomorphometric analysis, respectively. DXA revealed a decrease in bone mineral density in the lumbar vertebrae and tibial metaphysis, but not in the femoral diaphysis, suggesting that ß(IVSII-654) thalassemia predominantly led to osteopenia at the trabecular site, but not the cortical site. Further histomorphometric analysis of the tibial secondary spongiosa showed that trabecular bone volume was significantly decreased with the expansion of marrow cavity. Decreases in osteoblast surface, osteoid surface, mineral apposition rate, mineralizing surface, and mineralized volume were also observed. Moreover, trabecular bone resorption was markedly enhanced as indicated by increases in the osteoclast surface and eroded surface. It could be concluded that ß(IVSII-654) thalassemia impaired bone formation and enhanced bone resorption, thereby leading to osteopenia especially at the trabecular sites, such as the tibial metaphysis.

Effect of human beta-globin bacterial artificial chromosome transgenesis on embryo cryopreservation in mouse models.

The purpose of the present study was to investigate the efficiency of embryo cryopreservation for four transgenic (TG) thalassaemic mouse strains, which is a key element of the ongoing gene banking efforts for these high-value animals. Heterozygous TG embryos were produced by breeding four lines of TG males to wild-type (WT) females (C57BL/6J). Intact two-cell embryos were cryopreserved by vitrification in straws using 35% ethylene glycol. Survival rates of cryopreserved embryos ranged between 91.1% (102/112) and 93.6% (176/188) without significant differences between the lines. In contrast, the paternal line had a significant effect on the development of these embryos to the blastocyst stage, which ranged from 50.6% (92/182) to 77.5% (79/102). This effect was also noted following embryo transfers, with implantation rates varying from 17.3% (19/110) to 78.1% (35/45). The results demonstrate that the in vivo developmental potential is significantly influenced by TG line and reveal a specific line effect on cryosurvival. All bacterial artificial chromosome transgenic fetuses developed from vitrified-warmed embryos showed expression of the human beta-globin transgene. In conclusion, the present study shows a strong TG line effect on developmental competence following cryopreservation and the vitrification method was successful to bank the human beta-globin TG-expressing mouse strains.