COMBI IC Reagent: Mouse anti Myeloperoxidase-C2 (FITC) and Mouse anti Lactoferrin (PE)

COMBI IC Reagent: Mouse anti Myeloperoxidase-C2 (FITC) and Mouse anti Lactoferrin (PE), IgG1, Clone: 8E6 and 4C5
SKU
NORGIC-212
Packaging Unit
1 ml
Manufacturer
Nordic-MUbio

Availability: loading...
Price is loading...
Clone: 8E6 and 4C5

Label: FITC,PE

Background: Myeloperoxidase (MPO) is a glycoprotein present in the azurophil (primary) granules of myeloid cells, which appears in the myeloblast stage of myeloid cell differentiation. MPO is he most common functional protein of myeloid cells and is involved in the inflammatory response. It helps to kill microbes by breaking down peroxide in the presence of halide ions, contributing to the bactericidal function of granulocytes. The primary translation product of MPO undergoes glycosylation with production of the 89 kDa heme-free apopro-MPO form followed by incorporation of heme and conversion into the enzymatically active pro-MPO form. Subsequently, pro-MPO becomes targeted to azurophil granules where final processing occurs to produce mature dimeric MPO consisting of the 59-64 kDa MPO ?-chain and the 14 kDa MPO ?-chain. Lactoferrin (LF) is an iron-binding protein with bactericidal and bacteriostatic activity which is stored within the secondary granules of granulocytes. LF expression is restricted to the post-mitotic maturation compartment of the granulocytic lineage, starting from the myelocyte stage. Normal and malignant myeloblasts are LF negative. The combined staining for MPO and LF allows the distinction between mature and immature myelomonocytic cells. The MPO-C2/LF COMBI-IC reagent permits the identification and enumeration of immature and more mature myelomonocytic cell populations in normal and malignant human blood and bone marrow using flow cytometry. Results must be interpreted by a certified professional before final interpretation. Analyses performed with this antibody should be paralleled by positive and negative controls. If unexpected results are obtained which cannot be attributed to differences in laboratory procedures, please contact us.

Specificity: Antibody MPO-C2 (clone 8E6) reacts with human myeloperoxidase (MPO) expressed by normal and malignant myelomonocytic cells. The LF mAb (clone 4C5) recognizes lactoferrin stored within secondary granules of postmitotic granulocyte-commited cells. In this COMBI-IC Reagent antibody 8E6 is conjugated to FITC, antibody 4C5 is conjugated to Phycoeythrin (PE).The sensitivity of MPO-C2/LF mAb is determined by staining well-defined blood samples from representative donors with serial-fold mAb dilutions to obtain a titration curve that allows relating the mAb concentration to the percentage of stained cells and geometric MFI (mean fluorescence intensity). For this purpose, a mAb-concentration range is selected to include both the saturation point (i.e. the mAb dilution expected to bind all epitopes on the target cell) and the detection threshold (i.e. the mAb dilution expected to represent the least amount of mAb needed to detect an identical percentage of cells). In practice, 50 µl of leukocytes containing 10^7cells/ml are stained with 20 µl mAb of various dilutions to obtain a titration curve and to identify the saturation point and detection threshold. The final concentration of the product is then adjusted to be at least 3-fold above the detection threshold. In addition and to control lot-to-lot variation, the given lot is compared and adjusted to fluorescence standards with defined intensity.

Formulation: PBS pH 7.2, 1% BSA, 0.05% NaN3

References: 1. Andersson, E., Hellman, L., Gullberg, U. & Olsson, I. (1998) J Biol Chem 273, 4747-53.2. Braylan, R. C., Orfao, A., Borowitz, M. J. & Davis, B. H. (2001) Cytometry 46, 23-73. Catovsky, D., Matutes, E., Buccheri, V., Shetty, V., Hanslip, J., Yoshida, N. & Morilla, R. (1991) Ann Hematol 62, 16-21.4. Cowland, J. B. & Borregaard, N. (1999) J Leukoc Biol 66, 989-95 5. Groeneveld, K., te Marvelde, J. G., van den Beemd, M. W., Hooijkaas, H. & van Dongen, J. J. (1996) Leukemia 10, 1383-96. Gullberg, U., Andersson, E., Garwicz, D., Lindmark, A. & Olsson, I. (1997) Eur J Haematol 58, 137-53. 7. He, J. & Furmanski, P. (1995) Nature 373, 721-4. 8. Imamura, N. (1998) Am J Hematol 58, 241-3. 9. Knapp, W., Majdic, O. & Strobl, H. (1993) Recent Results Cancer Res 131, 31-40. 10. Koeffler, H. P., Ranyard, J. & Pertcheck, M. (1985) Blood 65, 484-91. 11. Konikova, E., Glasova, M., Kusenda, J. & Babusikova, O. (1998) Neoplasma 45, 282-91.12. Lanza, F., Latorraca, A., Moretti, S., Castagnari, B., Ferrari, L. & Castoldi, G. (1997) Cytometry 30, 134-44.13. Murao, S., Stevens, F. J., Ito, A. & Huberman, E. (1988) Proc Natl Acad Sci U S A 85, 1232-6. 14. Nakase, K., Sartor, M. & Bradstock (1998) Cytometry 34, 198-202. 15. Nauseef, W. M. (1990) Hematol Pathol 4, 165-78. 16. Nauseef, W. M., Olsson, I. & Arnljots, K. (1988) Eur J Haematol 40, 97-110.17. Oehler, L., Majdic, O., Pickl, W. F., Stockl, J., Riedl, E., Drach, J., Rappersberger, K., Geissler, K. & Knapp, W. (1998) J Exp Med 187, 1019-28. 18. Paietta, E. (2003) Best Pract Res Clin Haematol 16, 671-83. 19. Rado, T. A., Bollekens, J., St Laurent, G., Parker, L. & Benz, E. J., Jr. (1984) Blood 64, 1103-9. 20. Rado, T. A., Wei, X. P. & Benz, E. J., Jr. (1987) Blood 70, 989-93. 21. Srivastava, C. H., Rado, T. A., Bauerle, D. & Broxmeyer, H. E. (1991) J Immunol 146, 1014-9. 22. Strobl, H. & Knapp, W. (2004) J Biol Regul Homeost Agents 18, 335-9.

Caution: For professional users only. This reagent contains sodium azide. To avoid the development of hazardous conditions, reagents containing azide should be diluted in running water prior to be discarded. Similar to the work with other biological products, proper handling procedures are recommended.
More Information
SKU NORGIC-212
Manufacturer Nordic-MUbio
Manufacturer SKU GIC-212
Package Unit 1 ml
Quantity Unit STK
Reactivity Human
Clonality Monoclonal
Application Flow Cytometry
Isotype IgG1
Host Mouse
Conjugate Conjugated, FITC
Product information (PDF) Download
MSDS (PDF) Download