جستجوی مقالات مرتبط با کلیدواژه « hybridoma » در نشریات گروه « پزشکی »

A monoclonal antibody (mAb) can unambiguously identify, quantify, and purify an antigen or particular epitope at a large scale. The superiority of these antibodies lies in their specificity for the antigenic determinant. So, this study aims to prepare mouse mAb-secreting hybridoma against human gamma interferon (IFN-γ) and determine the produced antibody's characters.

Mouse splenic B lymphocytes immunized with recombinant human IFN-γ were fused with mouse SP2/0 cells. The hybridized cells were selected by hypoxanthine-aminopterin-thymidine and hypoxanthine-thymidine media to obtain monoclonal antibody-producing hybridoma cells. Finally, indirect enzyme-linked immunosorbent assay (ELISA), sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), and western blot were used to confirm the creation of antibody-secreting hybridoma cells.

mAb against IFN-γ were produced by fusing SP2/0 mouse non-secretory myeloma cell line with the spleen cells of immunized mice. This antibody's indirect ELISA optical density was 2.055 on average, and the desired antibody bands were confirmed in SDS-PAGE compared to Septicol® (commercial antibody). Also, in the western blot, the desired antibody could bind to the antigen. IFN-γ transferred on nitrocellulose membrane. In ELISA and western blot tests, anti-mouse IgG conjugated antibodies were used; therefore, the mAb IgG isotype was taken into consideration.

 In this study, a mouse mAb was obtained by immunization of Balb/C mice and fusion of spleen cells of these mice with the SP2/0 cells, which can specifically bind to recombinant human IFN-γ and can be used to detect IFN-γ secretion in all types of intracellular infections, including latent tuberculosis.

Here, we examined the function of our produced monoclonal antibody (mAb10C3) to recognize one of the most important members of the HEAT shock factor family, Hsf5, in embryonic development and in spermatogenic cells of adult mouse testis. The targeting effects of mAb10C3 were investigated by immunohistochemistry analysis in the different phases of the embryo and in the adult testis tissue sections. The results of immunohistochemistry staining on the mouse embryos by the supernatant of hybridoma clone that produced mAb10C3, in the early and late phases (E7.5 and E14.5) of embryonic development, indicated that mAb10C3 could only detect Hsf5 in E7.5 and it did not have any targeting activity in the late phase of development. Therefore, we showed that the hsf5 gene has expressed in early mouse embryonic development. On the other hand, mAb10C3 could detect Hsf5 in spermatogonia and spermatocytes of adult testis in comparison with a known anti-Hsf5 antibody (ab98939) and an anti-PCNA antibody as a marker of spermatogonia cells. Taken together, these data indicated that generated anti-testis mAb10C3 was generated against anti-testis proteins, specifically to target Hsf5, and can be useful as a scientific tool to investigate the critical genes in the development and spermatogenesis.

Monoclonal Antibodies (mAbs) are used for biomedical research, diagnosis, treatment, production, and the quality control of biological products. mAbs are also very helpful in poliovirus research studies because it is still one of the major public health problems in developing countries. The main objective of this study was the production of mAbs against Poliovirus Type 2 (PV2) to be prepared and respond to the re-emergence of this virus. After fusion of immunized B cells prepared from mice with myeloma tumor cells and screening of about 250 hybridoma colonies, 22 with the highest antibody titer and without cross-reaction with others types were selected and cloned by limiting dilution. In the end, two colonies capable of secreting mAbs against epitopes of  PV2  were used to produce mAbs. The mAbs were characterized by antibody assays, isotyping, and epitopes analysis using western blotting test, the cross-reactivity with other types, as well as stability, sterility, and mycoplasma tests. The results indicated that the produced mAbs had high specificity, sensitivity and stability against PV2 without any cross-reactivity and were of IgG1 Kappa chain with similar bands at 26 kDa during electrophoresis associated with viral protein VP3 neutralization. These mAbs were specific in serum neutralization tests for PV2 vaccine strain, and therefore, they are potentially valuable for routine polio research, diagnosis, isolation, production, and control of poliovirus vaccines.

Poliomyelitis remains a major public health problem in developing countries, which signify the need for extensive diagnostic and prevention research. The aim of the present study was to design monoclonal antibodies (MAbs) against poliovirus type I with biomedical, diagnostic and therapeutic applications. B-cells were isolated from a mouse challenged with polio antigen injection. The B-cell were fused with myeloma tumor cells. After evaluation and screening of approximately 250 hybridoma colons by ELISA, 35 colons with the highest antibody titer and no cross-reactivity were selected and subsequently cloned by limiting dilution. Finally, three colons capable of secreting MAbs against epitopes of poliovirus type I were used for MAb production. Next, the MAbs were characterized by antibody assays, isotyping, epitope analysis (western blot), cross-reactivity test, stability test, sterility test and mycoplasma test. The results indicated that the MAbs were of IgG1 kappa chain, had good stability and no cross-reactivity. In western blot, a band at 26 kDa which is associated to VP3 neutralization protein was observed. These serotype-specific MAbs can be potentially used for identification of type I poliovirus for research, diagnostic and prevention purposes.