Isolation, expansion, and characterization of mesenchymal stem cells from adult rat bone marrow
Amany Mohamed El Shawarby; Mohamed Abd Elrahman Ahmed; Mohamed Kamel Abo Golayel; Abo Zeid, Asmaa Abdelmonem;
Abstract
Introduction
Mesenchymal stem cells (MSCs) have been studied and applied extensively because
of their ability to self-renew and differentiate into various cell types.
Aim of the study
To isolate, increase the expansion rate and define rat bone marrow MSCs by
immunohistochemical and electron microscopic studies.
Materials and methods
Twenty adult male albino rats were used and divided equally into two groups. The bone
marrow was harvested and flushed out from the long bones of each group. In group 1,
the cells were cultured using complete medium containing Dulbecco’s modified
Eagle’s medium, 1% antibiotics, and 10% fetal bovine serum. In group 2, the cells
were cultured in complete medium supplemented with 8% fetal bovine serum and 2%
autologous rat serum.When the primary culture became nearly confluent, the adherent
cells were subcultured. After 12 days from the primary culture, aliquots of the cells
were prepared for Giemsa stain, transmission electron microscopy, and
immunohistochemical staining for CD44, CD105, and CD34.
Results
The adherent cells in both groups were heterogeneous in appearance, and most of
them were spindle or star-shaped with vesicular nuclei. Some cells were binucleated.
The MSCs in group 2 reached confluency more rapidly than those in group 1. After
passaging of group 2, the adherent cells became more homogeneously fibroblast-like
in appearance. Immunostaining of MSCs revealed a positive reaction for CD44 and
CD105 and a negative reaction for CD34. Ultrastructural examination revealed that the
native MSCs appeared with many pseudopodia, the nucleus was eccentric, and the
inner zone of the cytoplasm was rich in free ribosomes, many mitochondria, few rough
endoplasmic reticulum, with obvious Golgi complex, and some lysosomes. Some
MSCs showed no pseudopodia with central nucleus. Others appeared with two
euchromatic elliptical nuclei and a nucleolus in one of them.
Conclusion
MSCs can be easily purified, cultured, and expanded more rapidly using autologous rat
serum.
Keywords:
CD105, CD44, mesenchymal stem cells, rat bone marrow, rat serum
Mesenchymal stem cells (MSCs) have been studied and applied extensively because
of their ability to self-renew and differentiate into various cell types.
Aim of the study
To isolate, increase the expansion rate and define rat bone marrow MSCs by
immunohistochemical and electron microscopic studies.
Materials and methods
Twenty adult male albino rats were used and divided equally into two groups. The bone
marrow was harvested and flushed out from the long bones of each group. In group 1,
the cells were cultured using complete medium containing Dulbecco’s modified
Eagle’s medium, 1% antibiotics, and 10% fetal bovine serum. In group 2, the cells
were cultured in complete medium supplemented with 8% fetal bovine serum and 2%
autologous rat serum.When the primary culture became nearly confluent, the adherent
cells were subcultured. After 12 days from the primary culture, aliquots of the cells
were prepared for Giemsa stain, transmission electron microscopy, and
immunohistochemical staining for CD44, CD105, and CD34.
Results
The adherent cells in both groups were heterogeneous in appearance, and most of
them were spindle or star-shaped with vesicular nuclei. Some cells were binucleated.
The MSCs in group 2 reached confluency more rapidly than those in group 1. After
passaging of group 2, the adherent cells became more homogeneously fibroblast-like
in appearance. Immunostaining of MSCs revealed a positive reaction for CD44 and
CD105 and a negative reaction for CD34. Ultrastructural examination revealed that the
native MSCs appeared with many pseudopodia, the nucleus was eccentric, and the
inner zone of the cytoplasm was rich in free ribosomes, many mitochondria, few rough
endoplasmic reticulum, with obvious Golgi complex, and some lysosomes. Some
MSCs showed no pseudopodia with central nucleus. Others appeared with two
euchromatic elliptical nuclei and a nucleolus in one of them.
Conclusion
MSCs can be easily purified, cultured, and expanded more rapidly using autologous rat
serum.
Keywords:
CD105, CD44, mesenchymal stem cells, rat bone marrow, rat serum
Other data
| Title | Isolation, expansion, and characterization of mesenchymal stem cells from adult rat bone marrow | Authors | Amany Mohamed El Shawarby; Mohamed Abd Elrahman Ahmed; Mohamed Kamel Abo Golayel; Abo Zeid, Asmaa Abdelmonem | Issue Date | 2011 | Journal | Egyptian Journal of Histology | Volume | 34 | Issue | 2 | ISSN | 1110-0559 | DOI | 10.1097/01.ehx.0000396875.59556.15 |
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| Isolation_expansion_and_characterization_of.12.pdf | manuscript | 1.19 MB | Adobe PDF | Request a copy |
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