人间充质干细胞--肝脏Cell Specification
Mesenchymal stem cells (MSC) are well-characterized population of adult stem cells. They have
the potential to develop into mature cells that produce fat, cartilage, bone, tendons, and muscle
[1, 2]. These properties in combination with their developmental plasticity have generated
tremendous interest in the potential use of mesenchymal stem cells to replace damaged tissues.
The fetal liver is the source of early hematopoietic cells and considered as a source of pluripotent
stem cells [3]. MSC cultured without serum in the presence of transformation growth factor will
differentiate into chondrocytes, whereas MSC cultured in serum with ascorbic acid and
dexamethasone will differentiate into osteoblasts. MSC have the capability for renewal and
differentiation into various lineages of mesenchymal tissues. In essence, MSC can be cultured to
expand their numbers and transplanted to the injured site or after seeding in/on shaped
biomimetic scaffold to generate appropriate tissue constructs.
HMSC-he from ScienCell Research Laboratories are isolated from human liver. HMSC-he are
cryopreserved at passage one culture and delivered frozen. Each vial contains >5 x 105
Recommended Medium
cells in 1
ml volume. HMSC-he are characterized by immunofluorescent method with antibodies to CD73,
CD90, CD105 and lipid staining after differentiation. HMSC-he are negative for HIV-1, HBV,
HCV, mycoplasma, bacteria, yeast and fungi. HMSC-he are guaranteed to further culture at the
conditions provided by ScienCell Research Laboratories.
It is recommended to use Mesenchymal Stem Cell Medium (MSCM, Cat. No. 7501) for the
culturing of HMSC-he in vitro.
Product Use
HMSC-he are for research use only. It is not approved for human or animal use, or for
application in in vitro diagnostic procedures.
Storage
Directly and immediately transfer cells from dry ice to liquid nitrogen upon receiving and keep
the cells in liquid nitrogen until cell culture is needed for experiments.
人间充质干细胞--肝脏Shipping
Dry ice.
Reference
[1] Kassem, M. (2004) Mesenchymal stem cells: biological characteristics and potential clinical applications.
Cloning Stem Cells. 6(4):369-74.
[2] Barry, F. P., and J. M. Murphy. (2004) Mesenchymal stem cells: clinical applications and biological
characterization. Int J Biochem Cell Biol. 36(4):568-84.
[3] Machaj, EK, Grabowska, I, Gajkowska, A, Jastrzewska, M, Oldak, T, Moraczewski, J and Pojda, Z. (2005)
Differentiation potential of the fetal rat liver-derived cells. Folia Histochem Cytobiol. 43(4):217-22.
Instruction for culturing cells
Caution: Cryopreserved cells are very delicate. Thaw the vial in a 37o
and return them to culture as quickly as possible with minimal handling!
C waterbath
Set up culture after receiving the order:
1. Prepare a poly-L-lysine coated flask (2 μg/cm2
, T-75 flask is recommended). Add 10 ml
of sterile water to a T-75 flask and then add 15 μl of poly-L-lysine stock solution (10
mg/ml, ScienCell cat. no. 0413). Leave the flask in incubator overnight (minimum one
hour at 37o
2. Prepare complete medium: decontaminate the external surfaces of medium and medium
supplements with 70% ethanol and transfer them to sterile field. Aseptically open each
supplement tube and add them to the basal medium with a pipette. Rinse each tube with
medium to recover the entire volume.
C incubator).
3. Rinse the poly-L-lysine coated flask with sterile water twice and add 20 ml of complete
medium to the flask. Leave the flask in the hood and go to thaw the cells.
4. Place the vial in a 37o
5. Dispense the contents of the vial into the equilibrated, poly-L-lysine coated culture
vessels. A seeding density of 5,000 cells/cm
C waterbath, hold and rotate the vial gently until the contents are
completely thawed. Remove the vial from the waterbath immediately, wipe it dry, rinse
the vial with 70% ethanol and transfer it to a sterile field. Remove the cap, being careful
not to touch the interior threads with fingers. Using a 1 ml eppendorf pipette gently resuspend
the contents of the vial.
2
Note: Dilution and centrifugation of cells after thawing are not recommended since these
actions are more harmful to the cells than the effect of DMSO residue in the culture. It is
also important that cells are plated in poly lysine coated flask that promotes cell
attachment and growth.
is recommended.
6. Replace the cap or cover, and gently rock the vessel to distribute the cells evenly. Loosen
人间充质干细胞--肝脏cap if necessary to permit gas exchange.
7. Return the culture vessels to the incubator.
8. For best result, do not disturb the culture for at least 16 hours after the culture has been
initiated. Change the growth medium the next day to remove the residual DMSO and
unattached cells, then every other day thereafter.
Maintenance of Culture:
1. Change the medium to fresh supplemented medium the next morning after establishing a
culture from cryopreserved cells.
2. Change the medium every three days thereafter, until the culture is approximately 70%
confluent.
3. Once the culture reaches 70% confluence, change medium every other day until the
culture is approximately 90% confluent.
Subculture:
1. Subculture the cells when they are over 90% confluent.
2. Prepare poly-L-lysine coated cell culture flasks (2 μg/cm2
3. Warm medium, trypsin/EDTA solution (T/E, cat. no. 0103), trypsin neutralization
solution (TNS, cat. no. 0113), and DPBS (Ca
).
++ and Mg++ free, cat. no. 0303) to room
temperature. We do not recommend warming the reagents and medium at 37o
4. Rinse the cells with DPBS.
C
waterbath prior to use.
5. Add 8 ml of DPBS first and then 2 ml of trypsin/EDTA solution into flask (in the case of
T-75 flask); gently rock the flask to make sure cells are covered by trypsin/EDTA
solution; incubate the flask at 37o
C incubator for 2 minutes or until cells are completely
rounded up (monitored with inverted microscope). During incubation, prepare a 50 ml
conical centrifuge tube with 5 ml of fetal bovine serum (FBS, cat. no. 0500); transfer
trypsin/EDTA solution from the flask to the 50 ml centrifuge tube (a few percent of cells
may detached); continue incubate the flask at 37o
Note: Use ScienCell Research Laboratories’ trypsin/EDTA solution that is optimized to
minimize the killing of the cells by over trypsinization.
C for 1 or 2 minutes more (no solution
in the flask at this moment); at the end of trypsinization, one hand hold one side of flask
and the other hand gently tap the other side of the flask to detach cells from attachment;
check the flask under inverted microscope to make sure all cells are detached, add 5 ml of
trypsin neutralization solution to the flask and transfer detached cells to the 50 ml
centrifuge tube; add another 5 ml of TNS to harvest the residue cells and transfer it to the
50 ml centrifuge tube. Examine the flask under inverted microscope to make sure the cell
harvesting is successful by looking at the number of cells left behind. There should be
less than 5%.
6. Centrifuge the 50 ml centrifuge tube (harvested cell suspension) at 1000 rpm (Beckman
人间充质干细胞--肝脏Coulter Allegra 6R centrifuge or similar) for 5 min; re-suspend cells in growth medium.
7. Count cells and plate cells in a new, poly-L-lysine coated flask with cell density as
recommended.
Caution: Handling human derived products is potentially biohaza dous. Although each cell strain tests negative for
HIV, HBV and HCV DNA, diagnostic tests are not necessarily 100% accurate, therefore, proper precautions must
be taken to avoid inadvertent exposure. Always wear gloves and safety glasses when working these materials. Never
mouth pipette. We recommend following the universal procedures for handling products of human origin as the
minimum precaution against contamination [1].
[1]. Grizzle, W. E., and Polt, S. S. (1988) Guidelines to avoid personal contamination by infective agents in research
laboratories that use human tissues. J Tissue Culture Methods. 11(4).