THP-1 cell line

THP-1 is a human monocytic cell line derived from an acute monocytic leukemia patient. It is used to test leukemia cell lines in immunocytochemical analysis of protein-protein interactions, and immunohistochemistry.^[1]

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AS CULTURED CELLS GROW AND DIVIDE, THEY USE UP NUTRIENTS AND EVENTUALLY, CELLS WILL MULTIPLY TO A POINT THAT THEY RUN OUT OF SPACE IN THE CULTURE VESSEL. SUBCULTURING IS THE PROCESS OF DILUTING AND TRANSFERRING THE CELLS INTO MORE VESSELS WITH FRESH CULTURE MEDIUM SO WE CAN PRODUCE A NEW CULTURE AND THE CELLS CAN CONTINUE GROWING. IN THIS EXPERIMENT WE’LL DEMONSTRATE THE STEPS FOR PROPAGATING A CULTURE BY TRANSFERRING NIH3T3 CELLS FROM A PREVIOUS CULTURE TO A NEW CULTURE VESSEL. TO BEGIN, REMOVE THE CULTURED CELLS FROM THE INCUBATOR. VISUALLY INSPECT THE CELLS FOR A CHANGE IN PH, WHICH CAN BE DETECTED BY A DISCOLORATION OF THE INDICATOR PHENOL RED. EXAMINE THE CELL CULTURE UNDER AN INVERTED MICROSCOPE. LOOK FOR ANY SIGNS OF CONTAMINATION OR UNHEALTHY CELLS. THESE CELLS LOOK HEALTHY. NEXT, CALCULATE THE PERCENT CONFLUENCY. CONFLUENCY IS THE PERCENTAGE OF THE VESSEL COVERED BY CELLS. OUR CELLS ARE AT ABOUT 90-PERCENT CONFLUENCY. UNDER THE VERTICAL FLOWHOOD, REMOVE AND DISCARD THE CULTURE MEDIUM INTO A WASTE BEAKER THAT CONTAINS APPROXIMATELY 100 ML OF BLEACH. THE BLEACH IS USED TO KILL ANY CELLS OR MICROBES THAT ARE LEFT OVER. BRIEFLY RINSE THE CELL LAYER WITH 5 MILLILITERS OF STERILE PBS TO REMOVE ALL TRACES OF THE SERUM, WHICH CONTAINS A TRYPSIN INHIBITOR. ADD 3 ML OF TRYPSIN SOLUTION TO THE T-75 FLASK. MAKE SURE THE TRYPSIN HAS REACHED THE ENTIRE SURFACE AREA OF THE SUBSTRATE. IT’S IMPORTANT TO LIMIT THE CELLS’ EXPOSURE TO TRYPSIN TO THE LEAST AMOUNT OF TIME POSSIBLE… JUST LONG ENOUGH FOR THE CELLS TO DETACH. THE TIME VARIES DEPENDING ON THE CELL LINES. WE’LL INCUBATE THESE CELLS FOR 2 MINUTES. THIS WILL HELP QUICKEN THE PROCESS OF DETACHING THE CELLS FROM THE SUBSTRATE. REMOVE THE FLASK FROM THE INCUBATOR AND USE AN INVERTED MICROSCOPE TO CHECK FOR DISPERSION. THE CELLS IN OUR CULTURE ARE PROPERLY DISPERSED. AS YOU CAN SEE, THE CELLS ARE DETACHED AND FLOATING. BACK UNDER THE HOOD, ADD 7 ML OF COMPLETE CULTURE MEDIUM WITH 10% SERUM TO THE TRYPSINIZED CELLS. AND RESUSPEND THE CELLS BY PIPETTING UP AND DOWN SEVERAL TIMES. TRANSFER THE CELL SUSPENSION TO A 50-ML CONICAL TUBE. NEXT, PLACE THE TUBE INTO THE CENTRIFUGE. WE NEED TO ADD A SECOND TUBE FOR BALANCE. IT SHOULD HAVE THE SAME VOLUME AND BE PLACED DIRECTLY OPPOSITE OF THE TUBE THAT CONTAINS OUR CELLS. CENTRIFUGE THE CELLS AT 125-G FOR 5 MINUTES. ONCE THE CELLS HAVE FINISHED SPINNING, LOOK FOR A PELLET AT THE BOTTOM OF THE TUBE. HOLD THE TUBE STEADY BECAUSE SHAKING THE TUBE CAN DISPLACE THE PELLET. USE A PIPETTE TO CAREFULLY REMOVE THE SUPERNATANT, WHICH IS THE LIQUID ABOVE THE PELLET. ADD 5 ML OF FRESH PRE-WARMED CULTURE MEDIUM TO THE TUBE. RESUSPEND YOUR CELL PELLET BY PIPETTING UP AND DOWN. COUNT THE CELLS USING A HEMOCYTOMETER AS SEEN HERE, OR USE AN ELECTRONIC CELL COUNTER. CLICK THE LINK ON YOUR SCREEN TO WATCH A DEMONSTRATION OF THESE STEPS. BASED ON YOUR CELL COUNT, TRANSFER THE APPROPRIATE NUMBER OF CELLS TO A NEW CULTURE VESSEL. BRING THE VOLUME UP TO 25 ML USING FRESH, PRE-WARMED CULTURE MEDIUM. IT'S A GOOD IDEA TO CHECK THE CULTURE VESSEL UNDER AN INVERTED MICROSCOPE TO MAKE SURE THE CELL TRANSFER WAS SUCCESSFUL. WE CAN SEE CELLS, SO THIS CULTURE IS READY FOR THE INCUBATOR. INCUBATE THE CULTURE AT 37 DEGREES CELSIUS. NOW THE CELLS ARE ABLE TO CONTINUE GROWING AND DIVIDING.

Characteristics

Although THP-1 cells are of the same lineage, mutations can cause differences as the progeny proliferates. In general, THP-1 cells exhibit a large, round, single-cell morphology. The cells were derived from the peripheral blood of a 1-year-old human male with acute monocytic leukemia. Some of their characteristics are:^[1]

Expression of Fc receptor and C3b receptors while lacking surface and cytoplasmic immunoglobulins.
Production of IL-1.
Positive detection of alpha-naphthyl butyrate esterase and lysozymes
Phagocytic physiology (both for latex beads and sensitized erythrocytes).
Restoration of the response of purified T lymphocytes to Con A.
Increased CO₂ production on phagocytosis and differentiation into macrophage-like cells
Polarization into the M1 phenotype by incubation with IFN-γ and LPS, or to the M2 phenotype by incubation with interleukin 4 and interleukin 13^[2]
Differentiation into immature dendritic cells, using recombinant human interleukin 4 (rhIL-4) and recombinant human granulocyte macrophage colony-stimulating factor (rhGM-CSF), and mature dendritic cells using rhIL-4, rhGM-CSF, recombinant human tumour necrotic factor α (rhTNF-α) and Ionomycin.^[3]
The HLA type for THP-1 is HLA-A*02:01; A*24:02; B*15:11; B*35:01; C*03:03; DRB1*01:01; DRB1*15:01; DQB1*05:01; DQB1*06:02; DPB1*02:01; DPB1*04:02 (in the German Collection of Microorganisms and Cell Cultures (DSMZ) cell bank). This HLA type can change depending on the reference biorepository, due to loss of heterozygosity in multiple chromosomal regions, as THP-1 from the American Type Culture Collection (ATCC) do not express the HLA-A*24:02 and B*35:01 alleles.^[4]

Growth Information

THP-1 can provide continuous culture when grown in suspension; RPMI 1640 + 10% FBS + 2mM L-Glutamine. The average doubling time is 19 to 50 hours. 1 mM sodium pyruvate, penicillin (100 units/ml) and streptomycin (100 μg/ml) are also commonly added to inhibit bacterial contamination. Cultures should be maintained at cell densities in the range 2-9x10⁵ cells/ml at 37 °C, 5% CO₂. Cells are non-adherent.^[5]

Hazards

THP-1 cells are of human origin, and no evidence has been found for the presence of infectious viruses or toxic products. The ATCC Biosafety recommendation is level 1.^[5]

Research applications

THP-1 cells are used as a models to study the monocyte-macrophage differentiation process,^[6] and as a model to examine some macrophage-related physiological processes, for example the macrophage cholesterol efflux.^[7]

References

^ ^a ^b Tsuchiya S, Yamabe M, Yamaguchi Y, Kobayashi Y, Konno T, Tada K (August 1980). "Establishment and characterization of a human acute monocytic leukemia cell line (THP-1)". International Journal of Cancer. 26 (2): 171–6. doi:10.1002/ijc.2910260208. PMID 6970727. S2CID 43603660.
^ Genin M, Clement F, Fattaccioli A, Raes M, Michiels C (August 2015). "M1 and M2 macrophages derived from THP-1 cells differentially modulate the response of cancer cells to etoposide". BMC Cancer. 15: 577. doi:10.1186/s12885-015-1546-9. PMC 4545815. PMID 26253167.
^ Berges C, Naujokat C, Tinapp S, Wieczorek H, Höh A, Sadeghi M, Opelz G, Daniel V (August 2005). "A cell line model for the differentiation of human dendritic cells". Biochemical and Biophysical Research Communications. 333 (3): 896–907. doi:10.1016/j.bbrc.2005.05.171. PMID 15963458.
^ Noronha N, Ehx G, Meunier MC, Laverdure JP, Thériault C, Perreault C (March 2020). "Major multi-level molecular divergence between THP-1 cells from different biorepositories". International Journal of Cancer. xxx (x): 2000–2006. doi:10.1002/ijc.32967. PMID 32163592. S2CID 212692034.
^ ^a ^b "THP-1". ATCC. Retrieved 19 June 2018.
^ Auwerx J (January 1991). "The human leukemia cell line, THP-1: a multifacetted model for the study of monocyte-macrophage differentiation". Experientia. 47 (1): 22–31. doi:10.1007/BF02041244. PMID 1999239. S2CID 24727878.
^ Wang D, Hiebl V, Ladurner A, Latkolik SL, Bucar F, Heiß EH, Dirsch VM, Atanasov AG (May 2018). "6-Dihydroparadol, a Ginger Constituent, Enhances Cholesterol Efflux from THP-1-derived Macrophages". Molecular Nutrition & Food Research. 62 (14): e1800011. doi:10.1002/mnfr.201800011. PMC 6099374. PMID 29802792.

External links

Cellosaurus entry for THP-1

This page was last edited on 29 November 2023, at 02:35

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