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Secukinumab, a fully human monoclonal antibody, is a biological agent that targets interleukin-17A. Secukinumab is used in the management of the common dermatological entity - plaque-type psoriasis and its various types, namely psoriatic arthritis, hypertrophic palmoplantar psoriasis and generalized pustular psoriasis. Other less common indications of this popular interleukin -17A inhibitor, secukinumab include ankylosing spondylitis, rheumatoid arthritis, systemic lupus erythematosus, Familial Mediterranean fever, and tumor necrosis factor receptor-associated periodic syndrome (TRAPS). This review article was written by referring to various review articles, original articles, and some books related to highly regarded databases, such as the Web of Science, PubMed, and Scopus. The keywords explored during review of literature consisted of combinations of the following words: human monoclonal antibody, IL-17A, and biologicals. The authors with this in-depth review hope to explore the working of this versatile biological, Secukinumab, especially as a silver lining in dermatology
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【Objective】 To establish human hybridoma cell lines, secreting monoclonal antibody against antigens of Rh blood system, from a donor with rare D--phenotype. 【Methods】 Peripheral blood B lymphocytes of an O type female donor, lacking C/c/E/e antigens on her erythrocyte, were transformed with Epstein-Barr virus (EBVs). EBVs were harvested from the cultural supernatant of B95-8 cells. The transformed lymphoblastoid cell line (LCL) secreting antibodies to C antigens were picked up and then hybridized with the myeloma SHM-D33 using electric fusion technique. Hybridoma cells were selected by HATD-Ouabain(HOTD)(Hypoxantine, Aminopterin, Thymidine, 2-Deoxycytide, and Ouabain)culture medium, microplate antibody screening and limited dilution subcloning. The monoclonal antibody was assayed by serological test and was confirmed by flow cytometry (FCM). 【Results】 From the cultural supernatant of D--peripheral blood transformed B lymphocytes, 3A6-C6, which agglutinated with R1R1(DCe/DCe)O-type RBCs but not with R2R2(DcE/DcE)O-type RBCs, was screened and preliminarily identified as anti-C. We established a hybridoma cell line secreting anti-C immunoglobulin M from B cells of D--individual successfully after hybridization with SHM-D33 myeloma cells. 【Conclusion】 The study had laid the groundwork for future research and development of human monoclonal antibodies against Rh antigens of RBC in future for diagnosis and screening purpose.
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With the advantages of low immunogenicity and long half-life, human monoclonal antibody has become an indispensable biological agent in vivo. Immortalization of human B cells is a potential and effective method to obtain natural human antibody library, which can provide a rich source for the preparation of human monoclonal antibodies. As there are urgent problems to be solved in each platform, the preparation of antibodies based on human B cell immortalization is still limited to the laboratory research stage. At present, there is a lack of a systematic review to clarify the advantages and disadvantages of the existing human B cell immortalization antibody preparation platform and its feasibility analysis. This paper reviews the research on the preparation of human monoclonal antibody based on human B cells immortalization, and describes an in vitro cell culture method, in which hCD40L vesicles are used instead of feeder cells, in order to provide references for the further development of human monoclonal antibody preparation technology.
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Humans , Antibodies, Monoclonal , B-Lymphocytes , Cell Culture TechniquesABSTRACT
Objective:To establish a method for rapidly screening human antibodies recognizing HEV capsids proteins from pe-ripheral blood.The antibodies recognizing HEV capsids proteins were screened from the peripheral blood of vaccinator and the properties of the antibodies were analyzed.Methods:The HEV capsids proteins specific memory B cells in peripheral blood were obtained by flow cytometry sorting.Then antibody variable genes were acquired through single-cell RT-PCR and recombined to express in eukaryocyte.Finally,the properties analysis of recombinant expressed human monoclonal antibodies were carried out.Results:Six hu-manized monoclonal antibodies recognizing HEV capsids proteins were successfully obtained,and most of them had binding activity and neutralizing activity.Conclusion:The sequence of human monoclonal antibodies recognizing HEV capsid proteins is successfully screened and successfully expressed in the eukaryocyte.The properties of the antibodies are identified,which lay the foundation for studying antibody evolution in the human body after vaccination.
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Age-related macular degeneration(AMD) is the major cause of irreversible damage to vision in over 60 years old.Its incidence is increasing with age.Dry AMD is one of the most common types,causing the loss of vision is very slow.At the late stage,the geographic atrophy will be found,in which central vision is severely lost.It is widely believed that chronic inflammantion injury,oxidative stress injury,lipofuscin,drusen and choroid ischemia are the major pathogenesis.Now,the treatment is major aiming to the pathogenesis.But some new therapies such as crocetin,curcumin,ciliary neurotrophic factor,nanoceria,human monoclonal antibody,photoreceptor and stem cell transplantation have some efficiency to dry AMD.This article reviews the research advances in therapy of dry AMD.
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OBJECTIVE: To observe the in vivo activity of Ranti-HER, a fully human monoclonal antibody, and combined with the doxorubicin or CPT-11 in established human tumor xenografts in nude mice, and to investigate whether EGFR expression is correlated with this activity. METHODS: The overall receptor of EGF was quantified by flow cytometry. The anti-tumor effects of Ranti-HER were evaluated using established, s /c human carcinoma xenografts in nude mice, and the relative growth rate of tumor was used to assess the anti-tumor activity. RESULTS: A431 cells showed highly expression of EGFR by flow cytometry, SW620 showed negative expression, and EGFR were expressed positively in HT29 and SW948 cells, but both of them were showed low expression. Ranti-HER(0.25-1.0 mg) could inhibit the tumor growth in human A431 epidermoid carcinoma xenografts and dose-effect relationship was observed; Ranti-HER(1.0 mg) could also inhibit the tumor growth in human SW948 colon carcinoma xenografts, but no anti-tumor effects of Ranti-HER 1.0 mg were observed in human HT29 and SW620 colon carcinoma xenografts. Therapeutic enhancement was observed in the A431 xenografts after treatment with Ranti-HER combined with doxorubicin. For another combination regimens, Ranti-HER and CPT-11 proved to be significantly more efficacious than Ranti-HER monotherpy in SW948 xenografts. CONCLUSION: Antitumor activity of Ranti-HER are observed in xenografts in athymic nude mice, and the activity of Ranti-HER is correlated with the EGFR expression; synergistic effects are observed when Ranti-HER is combined with chemicals compared to Ranti-HER monotherapy.
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@#This study was focus on the optimizing cell culture process of recombinant DG44 cells which expressing novel fully human anti-VEGF165 monoclonal antibody(HVAB). Feed-batch culture and two-phase temperature control were studied for optimizing the HVAB productivity in shaken flasks. The influences of pH changes were determined to study the growth of DG44 cell and expression of HVAB in bioreactors. The HVAB productivity was rose from 101 mg/L to 654 mg/L after feed-batch culture in shaken flask, and cell viability maintained above 80% after reduce the temperature in middle growth phase. It is also suggested that pH range at 6. 4-7. 4 is beneficial to DG44 cells growth and HVAB expression. The productivity in bioreactor is 526 mg/L decreased 11% compare with in shaken flask, which laid an foundation for further pilot scale production.
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BACKGROUND/AIMS: To develop a novel treatment method for hepatitis B virus (HBV) infection, we aimed to make a human monoclonal antibody inhibiting reverse transcriptase (RT) activity of P protein which was important in HBV replication by using phage display technique. Therefore, we analysed the usability of human monoclonal antibody as a protein based gene therapy. METHODS: Reverse transcriptase/polymerase (RT/POL) functional motif of P protein of HBV was cloned in pMAL-c vector and expressed as maltose binding fusion protein form. The RT/POL recombinant protein (pMRT/POL) was purified by amylose resin column. Using human single chain Fv phage antibody library with 1.1x10(10) size, human antibody against pMRT/POL was selected with BIAcore panning. Selected antibody fragments were analyzed for the activity of RT inhibition. Finally, they were analyzed for the affinity with BIAcore and the complementarity determining regions with nucleotide sequencing. RESULTS: pMRT/POL recombinant protein expressed in E. coli showed RT activity, 1microgram of recombinant protein had an activity equivalent to 5 unit of MMLV RT. By BIAcore panning, we could select 3 clones; POL-A5, POL-B8 and POL-B12. Each clone's RT inhibiting activity were 52-82%, affinity against antigen were 8.15x10(-8) M to 1.75x10(-6) M. CONCLUSIONS: Human monoclonal antibodies produced in this study showed low affinity, but efficiently inhibited the activity of RT in vitro. If POL-A5, POL-B8, and POL-B12 can be converted to intracellular antibody form, it can be used for protein-based gene therapy by inhibiting the replication through the neutralization of polymerase protein of HBV.
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Humans , Antibodies, Monoclonal/biosynthesis , Complementarity Determining Regions/chemistry , Gene Products, pol/antagonists & inhibitors , Genetic Vectors , Hepatitis B virus/enzymology , Peptide Library , RNA-Directed DNA Polymerase/genetics , Recombinant Fusion Proteins/biosynthesis , Reverse Transcriptase Inhibitors/chemistryABSTRACT
BACKGROUND: To develop a novel treatment strategy for hepatitis B virus infection, a major cause of liver chirosis and cancer, we aimed to make human monoclonal antibodies inhibiting RNase H activity of P protein playing in important role in HBV replication. In this regard, phage display technology was employed and demonstrated as an efficient cloning method for human monoclonal antibody. So this study analysed the usability of human monoclonal antibody as protein based gene therapy. METHODS: RNase H of HBV was expressed as fusion protein with maltose binding protein and purified with amylose resin column. Single chain Fv (scFv) phage antibody library was constructed by PCR cloning using total RNAs of PBMC from 50 healthy volunteers. Binders to RNase H were selected with BIAcore 2000 from the constructed library, and purified as soluble antibody fragment. The affinity and sequences of selected antibody fragments were analyzed with BIAcore and ABI automatic sequencer, respectively. And finally RNase H activity inhibiting assay was carried out. RESULTS: Recombinant RNase H expressed in E. coli exhibited an proper enzyme activity. Naive library of 4.46 X 10(9) cfu was screened by BIAcore 2000. Two clones, RN41 and RN56, showed affinity of 4.5 X 10(-7) M and 1.9 X 10(-7) M, respectively. But RNase H inhibiting activity of RN41 was higher than that of RN56. CONCLUSION: We cloned human monoclonal antibodies inhibiting RNase H activity of P protein of HBV. These antibodies can be expected to be a good candidate for protein-based antiviral therapy by preventing a replication of HBV if they can be expressed intracellularly in HBV-infected hepatocytes.