TY  - JOUR
T1  - Mummy Enhances Chondrocyte Proliferation and the Expression of Extracellular Matrix
Components in Monolayer and 3D Culture Conditions
AU - Montaseri, Azadeh AU - Roshangar, Leila AU - Soleimani Rad, Jafar AU - Shafaei, Hajar AU - Rezaei, Fariba AU - Hassan Famian, Maryam 
JO  - Research Journal of Biological Sciences
VL  - 15
IS  - 2
SP  - 33
EP  - 39
PY  - 2020
DA  - 2001/08/19
SN  - 1815-8846
DO  - rjbsci.2020.33.39
UR  - https://makhillpublications.co/view-article.php?doi=rjbsci.2020.33.39
KW  - gene expression
KW  -extracellular matrix
KW  -Osteoarthritis
KW  -chondrocytes
KW  -proliferation
KW  -proliferation
KW  -chondrocytes
KW  -Osteoarthritis
AB  - To investigate the probable effects of mummy  on chondrocyte proliferation and expression of cartilage  specific gene. Chondrocytes at the second passage were  plated at density of 1&times;106   in monolayer or seeded onto  PCL scaffolds. Cells in both conditions were divided into  control (received medium) or treated with mummy at  concentrations of 500 or 1000 &mu;g mL<sup>&#150;1</sup>   for 72 h. The gene  expression profile of collagen II, aggrecan, Cartilage  Oligomeric Matrix Protein (COMP) and Sox-9 was  evaluated using real-time RT-PCR. The ability of mummy  to enhance the proliferation of chondrocytes was further  evaluated using doubling time. Treatment of chondrocytes  with 1000 &mu;g mL<sup>&#150;1</sup>   of mummy resulted in a significant  increase in expression of Sox-9, COMP and aggrecan  genes in both monolayer and 3D culture conditions.  Compared to the monolayer cultivated cells, expression of  genes in seeded chondrocytes on PCL scaffolds was  significantly higher. The highest proliferation rate of  chondrocytes was found at a concentration of  1000 &mu;g mL<sup>&#150;1</sup>  . The preliminary findings of this study  revealed that mummy can be a promoting factor for  chondrocyte proliferation and ECM synthesis. The use of  mummy at 1000 &mu;g mL<sup>&#150;1</sup>may be a suitable dose for  cartilage tissue engineering.
ER  - 