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1.
MAbs ; 14(1): 2068213, 2022.
Article in English | MEDLINE | ID: mdl-35482905

ABSTRACT

A conventional antibody targeting a soluble antigen in circulation typically requires a huge dosage and frequent intravenous administration to neutralize the antigen. This is because antigen degradation is reduced by the formation of antigen-antibody immune complexes, which escape from lysosomal degradation using neonatal Fc receptor (FcRn)-mediated recycling. To address this, we developed an antigen-sweeping antibody that combines pH-dependent antigen binding and Fc engineering to enhance Fc receptor binding. The sweeping antibody actively eliminates the plasma antigens by increasing the cellular uptake of the immune complex and dissociating the antigens in the acidic endosome for degradation. Strong antigen sweeping can reduce the dosage, potentially achieve higher efficacy, and expand the scope of antigen space available for targeting by antibodies. In this study, to further improve the sweeping efficacy, we developed a novel antibody Fc variant by enhancing Fcγ receptor IIb (FcγRIIb) binding and modulating charge characteristics for increased cellular uptake of the immune complex, together with enhancing FcRn binding for efficient salvage of the antigen-free antibodies. Our Fc variant achieved strong antigen sweeping in cynomolgus monkeys with antibody pharmacokinetics comparable to a wild-type human IgG1 antibody. The positive-charge substitutions enhanced uptake of the immune complex by FcγRIIb-expressing cells in vitro, which was completely inhibited by an anti-FcγRIIb antibody. This suggests that the strong in vivo sweeping efficacy improved by the charge engineering is more likely achieved by FcγRIIb-dependent uptake of the immune complex rather than nonspecific uptake. We expect this novel Fc engineering can maximize the antigen sweeping efficacy even in humans and create novel therapeutic antibodies that meet unmet medical needs for patients.


Subject(s)
Antigen-Antibody Complex , Antigens , Animals , Humans , Hydrogen-Ion Concentration , Immunoglobulin Fc Fragments , Macaca fascicularis
2.
Exp Dermatol ; 27(1): 14-21, 2018 01.
Article in English | MEDLINE | ID: mdl-27714851

ABSTRACT

Scratching is an important factor exacerbating skin lesions through the so-called itch-scratch cycle in atopic dermatitis (AD). In mice, interleukin (IL)-31 and its receptor IL-31 receptor A (IL-31RA) are known to play a critical role in pruritus and the pathogenesis of AD; however, study of their precise roles in primates is hindered by the low sequence homologies between primates and mice and the lack of direct evidence of itch sensation by IL-31 in primates. We showed that administration of cynomolgus IL-31 induces transient scratching behaviour in cynomolgus monkeys and by that were able to establish a monkey model of scratching. We then showed that a single subcutaneous injection of 1 mg/kg nemolizumab, a humanized anti-human IL-31RA monoclonal antibody that also neutralizes cynomolgus IL-31 signalling and shows a good pharmacokinetic profile in cynomolgus monkeys, suppressed the IL-31-induced scratching for about 2 months. These results suggest that the IL-31 axis and IL-31RA axis play as critical a role in the induction of scratching in primates as in mice and that the blockade of IL-31 signalling by an anti-human IL-31RA antibody is a promising therapeutic approach for treatment of AD. Nemolizumab is currently under investigation in clinical trials.


Subject(s)
Antibodies, Monoclonal, Humanized/pharmacology , Interleukins/pharmacology , Pruritus/chemically induced , Receptors, Interleukin/metabolism , A549 Cells , Animals , CHO Cells , Cell Line , Cricetulus , DNA, Complementary/metabolism , Humans , Kinetics , Macaca fascicularis , Male , Mice , Pruritus/metabolism , Signal Transduction , Skin/immunology , Skin/pathology , Skin Diseases/immunology , Skin Diseases/pathology
3.
Biol Pharm Bull ; 39(4): 625-30, 2016.
Article in English | MEDLINE | ID: mdl-26822531

ABSTRACT

Parathyroid hormone (PTH) is a potential medicine for osteoporosis, and subcutaneous (s.c.) PTH treatment enhances bone mass; however, continuous infusion of PTH elicits bone resorption and induces bone loss. To clarify this contradictory phenomenon, we examined bone markers and bone mass in rats to assess the optimal duration of PTH(1-34) infusion. Continuous infusion of PTH at 1 µg/kg/h (Css, steady-state concentration ca. 300 pg/mL) for 1-4 h clearly stimulated the expression both of bone formation-related genes (c-fos, Wnt4, EphrinB2) and of bone resorption-related genes (tnfsf11, tnfsf11b, encoding receptor activator of nuclear factor-kappaB ligand (RANKL), osteoprotegerin (OPG)), but s.c. treatment stimulated these genes only 1-h after the injection. Rats were treated with 1-, 2-, or 4-h infusions of PTH daily using a totally implanted catheter system, and the femoral bone mineral density (BMD) was measured at 4 weeks. The 1-h infusion of PTH significantly stimulated serum bone formation markers (procollagen I N-terminal propeptide (PINP) and osteocalcin) on day 14 and femoral BMD at 2 and 4 weeks, but the 4-h infusion of PTH did not enhance BMD. Since the 4-h infusion increased the levels of both the bone formation markers and a bone resorption marker (urinary C-terminal telopeptide of type 1 collagen (CTx)), the increased bone resorption may predominate over bone formation. The intermittent elevation of plasma PTH to 300 pg/mL for 1-h each day is optimal for increasing bone mass in rats. In osteoporosis therapy in human, using the optimal duration for the clinical dose of PTH may selectively stimulate bone formation.


Subject(s)
Bone Density/drug effects , Femur/drug effects , Parathyroid Hormone/pharmacology , Animals , Drug Administration Schedule , Femur/metabolism , Infusions, Intravenous , Intercellular Signaling Peptides and Proteins/genetics , Parathyroid Hormone/administration & dosage , Parathyroid Hormone/blood , Parathyroid Hormone/pharmacokinetics , RNA, Messenger/metabolism , Rats , Transcription Factors/genetics
4.
Xenobiotica ; 44(12): 1127-34, 2014 Dec.
Article in English | MEDLINE | ID: mdl-25030041

ABSTRACT

1. For drug discovery, useful screening tools are essential to select superior candidates. Here, we evaluated the applicability of transgenic mice expressing human neonatal Fc receptor (FcRn) (hFcRn Tgm) as a pharmacokinetic screening tool of therapeutic monoclonal antibodies (mAbs) and Fc-fusion proteins that overcomes the species difference in FcRn binding. 2. Marketed 11 mAbs and 2 Fc-fusion proteins were intravenously administered to hFcRn Tgm and WT mice. The half-lives in hFcRn Tgm and WT mice were compared with those in human obtained from literature. The linear half-lives in human and monkey were also calculated by nonlinear pharmacokinetic analysis. For comparison, correlations of half-lives between monkey and human were also evaluated. 3. The half-lives of mAbs and Fc-fusion proteins after intravenous administration ranged from 1.1 to 13.2 days in hFcRn Tgm and from 1.2 to 30.3 days in WT mice. The half-lives in human correlated more closely with those in hFcRn Tgm than in WT mice and monkey. 4. Our results suggest that hFcRn Tgm are a valuable and useful tool for pharmacokinetic screening of mAbs and Fc-fusion proteins in the preclinical stage. Furthermore, we believe that hFcRn Tgm are broadly applicable to preclinical pharmacokinetic screening of mAbs-based therapeutics.


Subject(s)
Antibodies, Monoclonal/immunology , Histocompatibility Antigens Class I/metabolism , Receptors, Fc/metabolism , Animals , Haplorhini , Histocompatibility Antigens Class I/genetics , Histocompatibility Antigens Class I/immunology , Humans , Mice , Mice, Transgenic , Protein Binding , Receptors, Fc/genetics , Receptors, Fc/immunology , Recombinant Proteins , Species Specificity
5.
Acta Histochem ; 113(4): 472-6, 2011 Jul.
Article in English | MEDLINE | ID: mdl-20546862

ABSTRACT

Fluorescein isothiocyanate (FITC)-labeled antibodies are widely used as primary antibodies in the tissue cross-reactivity (TCR) studies for the development of therapeutic antibodies. However, the effects of FITC-labeling on the characteristics of an antibody are poorly understood. The present study was performed to examine the effect of FITC-labeling on the binding affinity and immunohistochemical staining profile of an antibody, using several antibodies with different FITC-labeling indices. The results showed that the FITC-labeling index in antibody was negatively correlated with the binding affinity for its target antigen. Immunohistochemically, an antibody with a higher labeling index had a tendency to be more sensitive, but was also more likely to yield non-specific staining. Based on these findings, we recommend that a FITC-labeled antibody used as a primary antibody in a TCR study should be carefully selected from several differently labeled antibodies to minimize the decrease in the binding affinity and achieve the appropriate sensitivity and interpretation of the immunohistochemistry.


Subject(s)
Antibodies, Monoclonal , Fluorescein-5-isothiocyanate , Fluorescent Antibody Technique/methods , Affinity Labels , Animals , Antibodies, Monoclonal/chemistry , Antibodies, Monoclonal/immunology , Antibody Specificity , Cross Reactions , Fluorescein-5-isothiocyanate/chemistry , Humans , Organ Specificity
6.
Drug Metab Dispos ; 38(12): 2339-46, 2010 Dec.
Article in English | MEDLINE | ID: mdl-20823293

ABSTRACT

Anti-HM1.24 monoclonal antibody (AHM) is a humanized anti-HM1.24 monoclonal antibody that binds to the HM1.24 antigen, a protein that is highly expressed in multiple myeloma cells. The pharmacokinetics of AHM was determined in experiments in which AHM was administered intravenously to cynomolgus monkeys. The area under the plasma concentration-time curve increased by more than the dose ratio between 2 and 20 mg/kg, and nonlinear pharmacokinetics was observed. The elimination half-life of AHM from the plasma was 7.56 h at 2 mg/kg and 28.6 h at 20 mg/kg, which was shorter than that observed for other therapeutic humanized monoclonal antibodies, such as trastuzumab and bevacizumab. Although antibodies to AHM were detected in all monkeys on or after 10 days of administration, there was a temporal disassociation between the rapid elimination of AHM and the appearance of anti-AHM antibodies. HM1.24 antigen-dependent internalization and intracellular metabolism of AHM were investigated in peripheral blood mononuclear, KPMM2, and U937 cells. In all cases, AHM was rapidly internalized from the cell surface; this internalization was significantly prevented by phenylarsine oxide in KPMM2 cells, an inhibitor of receptor-mediated endocytosis, and the internalized AHM was subsequently degraded within the cells. Furthermore, immunofluorescence microscopy revealed that the internalized AHM is delivered to and degraded in late endosomes/lysosomes. Taken together, our results suggest that the rapid elimination of AHM from plasma in monkey is due to HM1.24 antigen-dependent internalization followed by delivery to the lysosomes.


Subject(s)
Antibodies, Monoclonal/pharmacokinetics , Antigens, CD/immunology , Animals , Antigens, CD/physiology , GPI-Linked Proteins/immunology , GPI-Linked Proteins/physiology , Humans , Iodine Radioisotopes , Lysosomes/metabolism , Macaca fascicularis , Male , U937 Cells
7.
Clin Cancer Res ; 13(9): 2745-50, 2007 May 01.
Article in English | MEDLINE | ID: mdl-17473208

ABSTRACT

PURPOSE: L612, a human IgM monoclonal antibody produced by an EBV-transformed human B-cell line, binds to ganglioside GM3 and kills GM3-positive human melanoma cells in the presence of complement. It has been shown to be effective in some patients with late-stage melanoma. L612 consists of hexameric IgM (about 20%), pentameric IgM (about 74%), and other minor IgM molecules. Because hexameric IgM activates complement more effectively than pentameric IgM, we developed and evaluated a hexamer-dominant recombinant IgM for clinical applications. EXPERIMENTAL DESIGN: Chinese hamster ovary (CHO) cells were transfected with heavy- and light-chain genes of L612, with or without the joining-chain gene. Antitumor effects of the recombinant IgM secreted from CHO cells were evaluated in vitro and in vivo. RESULTS: Recombinant IgM secreted from CHO cells without the joining chain (designated CA19) was approximately 80% hexameric, whereas recombinant IgM from CHO cells transfected with heavy-, light-, and joining-chain genes (designated CJ45) was about 90% pentameric. Both CA19 and CJ45 recombinant IgMs caused complement-dependent cytotoxicity against human and mouse melanoma cell lines, but the amount of CA19 required for 50% specific cytotoxicity was 5 to 10 times smaller. I.v. injection of CA19 compared with CJ45 or native L612 elicited more profound antitumor activity in nude rats bearing a GM3-positive mouse melanoma xenograft. CONCLUSIONS: A hexamer-dominant human IgM against GM3 may provide a more potent treatment option for patients with GM3-positive melanoma.


Subject(s)
Antibodies, Monoclonal/therapeutic use , G(M3) Ganglioside/immunology , Melanoma/drug therapy , Skin Neoplasms/drug therapy , Animals , Antibodies, Monoclonal, Humanized , CHO Cells , Cell Line, Tumor , Cricetinae , Cricetulus , Humans , Melanoma/chemistry , Melanoma/pathology , Recombinant Proteins/therapeutic use , Skin Neoplasms/chemistry , Skin Neoplasms/pathology
8.
J Biosci Bioeng ; 100(3): 311-7, 2005 Sep.
Article in English | MEDLINE | ID: mdl-16243282

ABSTRACT

An assay method using a surface plasmon resonance (SPR) biosensor has been developed that allows quantitative measurement of the specific antibody concentration in crude materials. By injecting non-labeled antibody samples onto a biosensor surface on which antigen was immobilized at high densities, the concentration of active antibodies can be accurately measured. To clarify applicability of this method to pharmacokinetic studies, the concentration of active antibodies in mouse plasma was measured for 4 h after injection of antibodies in mice. Although this period of measurement might be insufficient for determining the pharmacokinetics of blood pool clearance, this method has some advantages over conventional methods in measurement of single-chain antibody fragment (scFv) concentrations. Using the SPR biosensor, scFv and antibodies without epitope tag peptides were easily detected in real time, requiring as little as 20 mul of blood sample. Moreover, from the apparent dissociation rate in the dissociation phase of the sensorgrams, we could identify whether the antibody fragments existed as bivalent or monovalent in animal blood. We also evaluated the antigen binding activity of the scFvs against human CD47 and found scFvs had slightly weak affinity to their antigen (K(D), about 10 nM) compared with F(ab')2 and Fab' fragments (K(D), about 3-4 nM). This assay method promises to be a convenient tool for quality control, screening, and simple pharmacokinetic analysis of antibody fragments and other recombinant proteins not having epitope tags.


Subject(s)
Immunoglobulin Fragments/blood , Immunoglobulin Fragments/immunology , Immunoglobulin Variable Region/blood , Immunoglobulin Variable Region/immunology , Surface Plasmon Resonance/methods , Animals , Antibody Affinity , Antigen-Antibody Reactions , Humans , Mice , Mice, SCID
9.
Blood ; 105(2): 562-6, 2005 Jan 15.
Article in English | MEDLINE | ID: mdl-15374889

ABSTRACT

Antibodies have brought valuable therapeutics in the clinical treatment of various diseases without serious adverse effects through their intrinsic features such as specific binding to the target antigen with high affinity, clinical safety as serum proteins, and long half-life. Agonist antibodies, furthermore, could be expected to maximize the value of therapeutic antibodies. Indeed, several IgG/IgM antibodies have been reported to induce cellular growth/differentiation and apoptosis. These agonist antibodies, however, should be further improved to exert more potent biologic activities and appropriate serum half-life depending upon the disease indications. Here, we report that IgG antibodies against the thrombopoietin receptor (Mpl), which have an absence or very weak agonist activity, can be engineered to be agonist minibodies, which include diabody or sc(Fv)2 as potent as natural ligand. Through this technological development, minibodies have been successfully constructed to bind and activate 2 types of dysfunctional mutant Mpls that cause congenital amegakaryocytic thrombocytopenia (CAMT). This drastic conversion of biologic activities by designing minibodies can be widely applicable to generate agonist minibodies for clinical application, which will constitute a new paradigm in antibody-based therapeutics.


Subject(s)
Carrier Proteins/pharmacology , Immunoglobulins/pharmacology , Oncogene Proteins/agonists , Oncogene Proteins/immunology , Receptors, Cytokine/agonists , Receptors, Cytokine/immunology , Thrombocytopenia/immunology , Thrombocytopenia/therapy , Animals , Antibodies, Monoclonal , Autoantibodies/immunology , Cell Line, Tumor , Humans , Immunization , Leukemia, Megakaryoblastic, Acute , Mice , Mice, Inbred MRL lpr , Receptors, Thrombopoietin , Thrombopoietin/immunology
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