The mononuclear cell in human blood which mediates antibody-dependent cellular cytotoxicity to virus-infected target cells. II. Identification as a K cell.

Studies were carried out to determine whether the mononuclear cell in human blood which mediates antibody-dependent cellular cytotoxicity (ADCC) to herpes simplex virus (HSV)-infected target cells has surface Fc receptors which participate in the reaction. The F (ab')2 fragment of human IgG antibody was inactive both in ADCC and in complement-mediated cytolysis, but retained the capacity to neutralize infectious virus, to agglutinate erythrocytes coated with viral antigens, and to bind to the surface of virus-infected cells. Treatment of sensitized virus-infected target cells with staphylococcus protein A, which has affinity for the Fc epitope of IgG, strongly reduced their susceptibility to lysis by ADCC in a dose-dependent relationship. These findings indicate that the Fc portion of IgG antibody to the virus is necessary for cytotoxicity. Treatment of blood mononuclear cells with either heat-aggregated gamma-globulin or HSV immune complexes inhibited effector cell activity. The presence of "third party" cellular immune complexes also strongly inhibited ADCC. Adsorption of mononuclear cells to plastic surfaces coated with soluble third party immune complexes resulted in a significant reduction in effector cell activity. These findings demonstrate that the ADCC effector cell possesses surface Fc receptors which are utilized in the ADCC reaction. The presence of Fc receptors on the surface of the effector cell indicates that it is a K cell rather than a null cell.     

Exchanging human Fcγ1 with murine Fcγ2a highly potentiates anti-tumor activity of anti-EpCAM antibody adecatumumab in a syngeneic mouse lung metastasis model

An important mode of action shared by human IgG1 antibody therapies is antibody-dependent cellular cytotoxicity (ADCC). ADCC relies on the interaction of the antibody’s Fc portion with Fc-gama receptors (FcγR) on immune effector cells. The anti-tumor activity of human IgG1 antibodies is frequently assessed in mouse models. Binding of human IgG1 to murine FcγRs is however of reduced affinity. We here show that ADCC of adecatumumab (MT201), a fully human IgG1 antibody specific for epithelial cell adhesion molecule (EpCAM/CD326), is drastically lower if human peripheral blood mononuclear cells are replaced by murine splenocytes as effector cells. When the variable domains of adecatumumab were genetically fused to a murine IgG2a backbone (yielding mu-adecatumumab), ADCC with murine effector cells was much improved, but at the same time significantly reduced with human effector cells. The serum half-lives of adecatumumab and mu-adecatumumab were determined in mice and dosing schedules established that gave similar serum trough levels during a 4-week antibody treatment. The anti-tumor activities of adecatumumab and mu-adecatumumab were then compared side-by-side in a lung metastasis mouse model established with a syngeneic B16 melanoma line expressing human EpCAM at physiologically relevant levels. Treatment of mice with mu-adecatumumab led to an almost complete prevention of lung metastases, while the human version of the antibody was much less active. This shows that adecatumumab has high anti-tumor activity when tested in a form that is better compatible with the species’ immune system. Moreover, our data suggest to routinely compare in mouse models human IgG1 and murine IgG2a versions of antibodies to properly assess the contribution of ADCC to overall anti-tumor activity.     

肿瘤内皮标志物8同型物Ⅰ基因真核表达载体的构建及其在HEK293F细胞中的表达

目的:构建肿瘤内皮标志物8(TEM8)基因真核表达载体,实现TEM8在HEK293F细胞中的外源表达。方法:用PCR技术扩增TEM8基因,经限制性酶切、连接、转化,插入pcDNA3.1(+)-EGFP真核表达载体,并通过脂质体将TEM8表达质粒转染至HEK293F细胞中,Western印迹检测TEM8的表达。结果:PCR扩增得到TEM8基因,构建了真核表达载体pcDNA3.1(+)-TEM8-EGFP并转染HEK293F细胞,经G418加压筛选及有限稀释法得到生长性状良好、表达效率高的单克隆细胞系TEM8-EGFP/HEK293F;Western印迹证明过表达细胞系TEM8-EGFP/HEK293F显著表达TEM8蛋白。结论:构建了表达TEM8的重组HEK293F工程细胞系TEM8-EGFP/HEK293F,为进一步研究TEM8的生理功能奠定了基础。     

反转录病毒载体介导的猪APOBEC3F在猪源细胞PK15中的表达

目的:利用反转录病毒载体构建猪载脂蛋白B mRNA编辑酶催化多肽样蛋白(APOBEC)3F重组质粒,并实现其在猪肾细胞PK15中的表达。方法:用RT-PCR方法扩增五指山猪来源的外周血淋巴细胞APOBEC3F基因,将其定点插入反转录病毒载体pMSCV neo中,同时于插入位点两侧分别添加FLAG和GFP标签,构建重组质粒pMSCV-FLAG-A3F-GFP,并进行酶切、测序鉴定;将鉴定正确的重组质粒与pVSV-G、pGag-Pol共转染包装细胞HEK293T,分别于转染后48~72 h收集细胞的培养上清以获得假型病毒粒子;用该假型病毒感染猪源细胞PK15,通过PCR、Western印迹检测目的基因的整合及表达。结果:PCR扩增到1254 bp的猪APOBEC3F基因,重组质粒pMSCV-FLAG-A3F-GFP经酶切、测序,结果无误;3质粒共转染HEK293T细胞包装出的假型病毒感染PK15细胞后观察到GFP表达;从感染假型病毒的PK15细胞基因组中扩增到1254 bp的猪APOBEC3F基因,Western印迹检测到78.1×103的猪APOBEC3F蛋白的表达。结论:实现了反转录病毒载体介导的猪APOBEC3F在猪源细胞PK15中的整合与表达,为深入研究该分子对猪内源性反转录病毒(PERV)的抑制作用奠定了基础。     

Engineered aglycosylated full-length IgG Fc variants exhibiting improved FcγRIIIa binding and tumor cell clearance

FcγRIIIa, which is predominantly expressed on the surface of natural killer cells, plays a key role in antibody-dependent cell-mediated cytotoxicity (ADCC), a major effector function of therapeutic IgG antibodies that results in the death of aberrant cells. Despite the potential uses of aglycosylated IgG antibodies, which can be easily produced in bacteria and do not have complicated glycan heterogeneity issues, they show negligible binding to FcγRIIIa and abolish the activation of immune leukocytes for tumor cell clearance, in sharp contrast to most glycosylated IgG antibodies used in the clinical setting. For directed evolution of aglycosylated Fc variants that bind to FcγRIIIa and, in turn, exert potent ADCC effector function, we randomized the aglycosylated Fc region of full-length IgG expressed on the inner membrane of Escherichia coli. Multiple rounds of high-throughput screening using flow cytometry facilitated the isolation of aglycosylated IgG Fc variants that exhibited higher binding affinity to FcγRIIIa-158V and FcγRIIIa-158F compared with clinical-grade trastuzumab (Herceptin®). The resulting aglycosylated trastuzumab IgG antibody Fc variants could elicit strong peripheral blood mononuclear cell-mediated ADCC without glycosylation in the Fc region.     

Characterizing the effect of multiple Fc glycan attributes on the effector functions and FcγRIIIa receptor binding activity of an IgG1 antibody

N‐linked Fc glycosylation of IgG1 monoclonal antibody therapeutics can directly influence their mechanism of action by impacting IgG effector functions such as antibody‐dependent cell‐mediated cytotoxicity (ADCC) and complement‐dependent cytotoxicity (CDC). Therefore, identification and detailed characterization of Fc glycan critical quality attributes (CQAs) provides important information for process design and control. A two‐step approach was used to identify and characterize the Fc glycan CQAs for an IgG1 Mab with effector function. First, single factor experiments were performed to identify glycan critical quality attributes that influence ADCC and CDC activities. Next, a full‐factorial design of experiment (DOE) to characterize the possible interactions and relative effect of these three glycan species on ADCC, CDC, and FcγRIIIa binding was employed. Additionally, the DOE data were used to develop models to predict ADCC, CDC, and FcγRIIIa binding of a given configuration of the three glycan species for this IgG1 molecule. The results demonstrate that for ADCC, afuco mono/bi has the largest effect, followed by HM and β‐gal, while FcγRIIIa binding is affected by afuco mono/bi and β‐gal. CDC, in contrast, is affected by β‐gal only. This type of glycan characterization and modeling can provide valuable information for development, manufacturing support and process improvements for IgG products that require effector function for efficacy. © 2016 American Institute of Chemical Engineers Biotechnol. Prog., 32:1181–1192, 2016     

二氢生物喋呤还原酶参与调控HEK293T细胞自噬作用的初步研究

目的探讨二氢生物喋呤还原酶（dihydropteridine reductase,QDPR）对HEK293T细胞自噬作用的影响。方法构建野生型QDPR和突变型QDPR重组质粒分别转染HEK293T细胞,并设空载体对照组。采用RT-PCR及Western blot方法检测空载体组,野生型QDPR组和突变型QDPR组自噬相关蛋白LC3和Beclin 1的表达量变化。结果 1）测序结果证实PCR扩增得到编码正常QDPR的cDNA序列正确以及突变的cDNA也在正确的位置突变;2）磷酸钙共沉淀法转染HEK293T细胞后,野生型QDPR和突变型QDPR融合蛋白成功表达;3）RT-PCR结果显示,与对照组相比,野生型QDPR组LC3基因水平明显上调（P〈0.05）,突变型QDPR组LC3基因水平与对照组相比无统计学差异;与对照组相比,野生型和突变型组Beclin1基因水平无统计学差异;4）Western blot结果显示,与对照组相比,野生型QDPR组LC3-II和Beclin1的蛋白表达量明显上调（P〈0.05）,但LC3-I的蛋白表达量无统计学差异,突变型QDPR组与对照组相比LC3-I,II和Beclin1的蛋白表达量均没有统计学差异（P〉0.05）。结论二氢生物喋呤还原酶能增强HEK293T细胞自噬相关基因LC3和Beclin 1的表达,提示其可能具有激活自噬作用的功能;二氢生物喋呤还原酶93位氨基酸的突变影响了其对细胞自噬作用的调控,降低了自噬标志分子LC3-I和Beclin1的基因表达。     

Increased in vivo effector function of human IgG4 isotype antibodies through afucosylation

For some antibodies intended for use as human therapeutics, reduced effector function is desired to avoid toxicities that might be associated with depletion of target cells. Since effector function(s), including antibody-dependent cell-mediated cytotoxicity (ADCC), require the Fc portion to be glycosylated, reduced ADCC activity antibodies can be obtained through aglycosylation of the human IgG1 isotype. An alternative is to switch to an IgG4 isotype in which the glycosylated antibody is known to have reduced effector function relative to glycosylated IgG1 antibody. ADCC activity of glycosylated IgG1 antibodies is sensitive to the fucosylation status of the Fc glycan, with both in vitro and in vivo ADCC activity increased upon fucose removal (“afucosylation”). The effect of afucosylation on activity of IgG4 antibodies is less well characterized, but it has been shown to increase the in vitro ADCC activity of an anti-CD20 antibody. Here, we show that both in vitro and in vivo activity of anti-CD20 IgG4 isotype antibodies is increased via afucosylation. Using blends of material made in Chinese hamster ovary (CHO) and Fut8KO-CHO cells, we show that ADCC activity of an IgG4 version of an anti-human CD20 antibody is directly proportional to the fucose content. In mice transgenic for human FcγRIIIa, afucosylation of an IgG4 anti-mouse CD20 antibody increases the B cell depletion activity to a level approaching that of the mIgG2a antibody.     

Comparison of biological activity among nonfucosylated therapeutic IgG1 antibodies with three different N-linked Fc oligosaccharides: the high-mannose, hybrid, and complex types

The structure of asparagine-linked oligosaccharides attached to the antibody constant region (Fc) of human immunoglobulin G1 (IgG1) has been shown to affect the pharmacokinetics and antibody effector functions of antibody-dependent cellular cytotoxicity (ADCC) and complement-dependent cytotoxicity (CDC). However, it is still unclear how differences in the N-linked oligosaccharide structures impact the biological activities of antibodies, especially those lacking core fucose. Here, we succeeded in generating core fucose-lacking human IgG1 antibodies with three different N-linked Fc oligosaccharides, namely, a high-mannose, hybrid, and complex type, using the same producing clone, and compared their activities. Cultivation of an alpha-1,6-fucosyltransferase (FUT8) knockout Chinese hamster ovary cell line in the presence or absence of a glycosidase inhibitor (either swainsonine or kifunensine) yielded antibody production of each of the three types without contamination by the others. Two of three types of nonnaturally occurring atypical oligosaccharide IgG1, except the complex type, reduced the affinity for both human lymphocyte receptor IIIa (FcgammaRIIIa) and the C1q component of the complement, resulting in reduction of ADCC and CDC. The bulky structure of the nonreducing end of N-linked Fc oligosaccharides is considered to contribute the CDC change, whereas the structural change in the reducing end, i.e. the removal of core fucose, causes ADCC enhancement through improved FcgammaRIIIa binding. In the pharmacokinetic profile, although no significant difference of human neonatal Fc receptor (FcRn)-binding affinity was observed among the three types, the complex type showed longer serum half-lives than the other types irrespective of core fucosylation in mice, which also suggests the contribution of the nonreducing end structure. The present study provides basic information on the effects of core fucose-lacking N-linked Fc oligosaccharides on antibody biological activities.     

Overexpression of thioredoxin reductase 1 inhibits migration of HEK-293 cells

Background information. TrxR (thioredoxin reductase), in addition to protecting against oxidative stress, plays a role in the redox regulation of intracellular signalling pathways controlling, among others, cell proliferation and apoptosis. The aim of the present study was to determine whether TrxR1 is involved in the regulation of cell migration. Results. Stably transfected HEK‐293 (human embryonic kidney) cells which overexpress cytosolic TrxR1 (HEK‐TrxR15 and HEK‐TrxR11 cells) were used in the present study. We found that the stimulation of cell motility induced by PKC (protein kinase C) activators, PMA and DPhT (diphenyltin), was inhibited significantly in the HEK‐TrxR15 and HEK‐TrxR11 cells compared with control cells. The overexpression of TrxR1 also inhibited characteristic morphological changes and reorganization of the F‐actin cytoskeleton induced by PMA and DPhT. In addition, the selective activation of PKCδ by DPhT was inhibited in cells that overexpressed cytosolic TrxR1. Furthermore, rottlerin, a selective inhibitor of PKCδ, and PKCδ siRNA (small interfering RNA), suppressed the morphological changes induced by DPhT in the control cells. Conclusions. The overexpression of TrxR1 inhibits migration of HEK‐293 cells stimulated with PMA and DPhT. Moreover, our observations suggest that this effect is mediated by the inhibition of PKCδ activation.     

A monoclonal antibody against hinge-cleaved IgG restores effector function to proteolytically-inactivated IgGs in vitro and in vivo

We report a chimeric monoclonal antibody (mAb) directed to a neo-epitope that is exposed in the IgG lower hinge following proteolytic cleavage. The mAb, designated 2095–2, displays specificity for IdeS-generated F(ab’)₂ fragments, but not for full-length IgG or for closely-related F(ab’)₂ fragments generated with other proteases. A critical component of the specificity is provided by the C-terminal amino acid of the epitope corresponding to gly-236 in the IgG1 (also IgG4) hinge. By its ability to bind to IdeS-cleaved anti-CD20 mAb, mAb 2095–2 fully restored antibody-dependent cell-mediated cytotoxicity (ADCC) and complement-dependent cytotoxicity (CDC) against WIL2-S cells to the otherwise inactive anti-CD20 IgG1 F(ab’)₂ fragment. Similarly, 2095–2 reinstated ADCC against MDA-MB-231 cells to an anti-CD142 IgG1 F(ab’)₂ fragment. mAb 2095–2 was also capable of eliciting both CDC and ADCC to IgG4 F(ab’)₂ fragments, an IgG subclass that has weaker ADCC and CDC when intact relative to intact IgG1. The in vitro cell-based efficacy of 2095–2 was extended to the in vivo setting using platelets as a cell clearance surrogate. In a canine model, the co-administration of 2095–2 together with IdeS-generated, platelet-targeting anti-CD41/61 F(ab’)₂ fragment not only restored platelet clearance, but did so at a rate and extent of clearance that exceeded that of intact anti-CD41/61 IgG at comparable concentrations. To further explore this unexpected amplification effect, we conducted a rat study in which 2095–2 was administered at a series of doses in combination with a fixed dose of anti-CD41/61 F(ab’)₂ fragments. Again, the combination, at ratios as low as 1:10 (w/w) 2095–2 to F(ab’)₂, proved more effective than the anti-CD41/61 IgG1 alone. These findings suggest a novel mechanism for enhancing antibody-mediated cell-killing effector functions with potential applications in pathologic settings such as tumors and acute infections where protease activity is abundant.     

Glycan-Dependent Immunogenicity of Recombinant Soluble Trimeric Hemagglutinin

Recombinant soluble trimeric influenza A virus (IAV) hemagglutinin (sHA₃) has proven an effective vaccine antigen against IAV. Here, we investigate to what extent the glycosylation status of the sHA₃ glycoprotein affects its immunogenicity. Different glycosylation forms of subtype H5 trimeric HA protein (sH5₃) were produced by expression in insect cells and different mammalian cells in the absence and presence of inhibitors of N-glycan-modifying enzymes or by enzymatic removal of the oligosaccharides. The following sH5₃ preparations were evaluated: (i) HA proteins carrying complex glycans produced in HEK293T cells; (ii) HA proteins carrying Man₉GlcNAc₂ moieties, expressed in HEK293T cells treated with kifunensine; (iii) HA proteins containing Man₅GlcNAc₂ moieties derived from HEK293S GnTI(−) cells; (iv) insect cell-produced HA proteins carrying paucimannosidic N-glycans; and (v) HEK293S GnTI(−) cell-produced HA proteins treated with endoglycosidase H, thus carrying side chains composed of only a single N-acetylglucosamine each. The different HA glycosylation states were confirmed by comparative electrophoretic analysis and by mass spectrometric analysis of released glycans. The immunogenicity of the HA preparations was studied in chickens and mice. The results demonstrate that HA proteins carrying terminal mannose moieties induce significantly lower hemagglutination inhibition antibody titers than HA proteins carrying complex glycans or single N-acetylglucosamine side chains. However, the glycosylation state of the HA proteins did not affect the breadth of the antibody response as measured by an HA1 antigen microarray. We conclude that the glycosylation state of recombinant antigens is a factor of significant importance when developing glycoprotein-based vaccines, such as recombinant HA proteins.     

Cleavage of GSK‐3β by calpain counteracts the inhibitory effect of Ser9 phosphorylation on GSK‐3β activity induced by H2O2

Glycogen synthase kinase‐3 beta (GSK‐3β) dysfunction may play an essential role in the pathogenesis of psychiatric, metabolic, neurodegenerative diseases, in which oxidative stress exists concurrently. Some studies have shown that GSK‐3β activity is up‐regulated under oxidative stress. This study evaluated how oxidative stress regulates GSK‐3β activity in human embryonic kidney 293 (HEK293)/Tau cells treated with hydrogen peroxide (H₂O₂). Here, we show that H₂O₂ induced an obvious increase of GSK‐3β activity. Surprisingly, H₂O₂ dramatically increased phosphorylation of GSK‐3β at Ser9, an inactive form of GSK‐3β,while there were no changes of phosphorylation of GSK‐3β at Tyr216. Moreover, H₂O₂ led to a transient [Ca²⁺]_i elevation, and simultaneously increased the truncation of GSK‐3β into two fragments of 40 kDa and 30 kDa, whereas inhibition of calpain decreased the truncation and recovered the activity of GSK‐3β. Furthermore, tau was hyperphosphorylated at Ser396, Ser404, and Thr231, three most common GSK‐3β targeted sites after 100 μM H₂O₂ administration in HEK293/Tau cells, whereas inhibition of calpain blocked the tau phosphorylation. In addition, we found that there were no obvious changes of Cyclin‐dependent kinase 5 (CDK5) expression (responsible for tau phosphorylation) and of p35 cleavage, the regulatory subunit of CDK5 in H₂O₂‐treated HEK293/Tau cells. In conclusion, Ca²⁺‐dependent calpain activation leads to GSK‐3β truncation, which counteracts the inhibitory effect of Ser9 phosphorylation, up‐regulates GSK‐3β activity, and phosphorylates tau in H₂O₂‐treated HEK293/Tau cells.     

Analysis of effector cells in human antibody-dependent cellular cytotoxicity with murine monoclonal antibodies

We examined purified human large granular lymphocytes, peripheral monocytes, and T cells for their ability to mediate antibody-dependent cellular cytotoxicity (ADCC) with murine monoclonal antibodies. We also evaluated the effects of pretreatment of cells with interleukin 2 and interferon to augment ADCC activity. MB3.6, a murine monoclonal antibody directed against the GD3 ganglioside, induced high levels of ADCC. This ADCC was mediated predominantly, if not completely, by human killer cells (large granular lymphocytes) whereas other effector cell populations demonstrated no significant cytotoxic activity in 6- or 18-hr assays. The IgG2a an anti-melanoma antibody 9.2.27 generated low or no ADCC with most normal donors or melanoma patients. IL 2 was a very potent booster of ADCC activity. Interferon alpha also was effective, whereas interferon gamma did not augment but rather inhibited reactivity. We tested a large panel of antibodies of various isotype against colon carcinoma cells and found that gamma-3 isotype antibodies more frequently generated ADCC and produced higher levels of cytotoxic activity than did IgG1 or IgG2 antibodies. It appears that a variety of parameters can affect ADCC reactions, including the type of effector cell and its level of activation, the isotype of the antibody, and properties of the target cell line such as its susceptibility to lysis.     

The absence of fucose but not the presence of galactose or bisecting N-acetylglucosamine of human IgG1 complex-type oligosaccharides shows the critical role of enhancing antibody-dependent cellular cytotoxicity

An anti-human interleukin 5 receptor (hIL-5R) humanized immunoglobulin G1 (IgG1) and an anti-CD20 chimeric IgG1 produced by rat hybridoma YB2/0 cell lines showed more than 50-fold higher antibody-dependent cellular cytotoxicity (ADCC) using purified human peripheral blood mononuclear cells as effector than those produced by Chinese hamster ovary (CHO) cell lines. Monosaccharide composition and oligosaccharide profiling analysis showed that low fucose (Fuc) content of complex-type oligosaccharides was characteristic in YB2/0-produced IgG1s compared with high Fuc content of CHO-produced IgG1s. YB2/0-produced anti-hIL-5R IgG1 was subjected to Lens culinaris aggulutin affinity column and fractionated based on the contents of Fuc. The lower Fuc IgG1 had higher ADCC than the IgG1 before separation. In contrast, the content of bisecting GlcNAc of the IgG1 affected ADCC much less than that of Fuc. In addition, the correlation between Gal and ADCC was not observed. When the combined effect of Fuc and bisecting GlcNAc was examined in anti-CD20 IgG1, only a severalfold increase of ADCC was observed by the addition of GlcNAc to highly fucosylated IgG1. Quantitative PCR analysis indicated that YB2/0 cells had lower expression level of FUT8 mRNA, which codes alpha1,6-fucosyltransferase, than CHO cells. Overexpression of FUT8 mRNA in YB2/0 cells led to an increase of fucosylated oligosaccharides and decrease of ADCC of the IgG1. These results indicate that the lack of fucosylation of IgG1 has the most critical role in enhancement of ADCC, although several reports have suggested the importance of Gal or bisecting GlcNAc and provide important information to produce the effective therapeutic antibody.     

A monoclonal antibody against hinge-cleaved IgG restores effector function to proteolytically-inactivated IgGs in vitro and in vivo

We report a chimeric monoclonal antibody (mAb) directed to a neo-epitope that is exposed in the IgG lower hinge following proteolytic cleavage. The mAb, designated 2095–2, displays specificity for IdeS-generated F(ab’)₂ fragments, but not for full-length IgG or for closely-related F(ab’)₂ fragments generated with other proteases. A critical component of the specificity is provided by the C-terminal amino acid of the epitope corresponding to gly-236 in the IgG1 (also IgG4) hinge. By its ability to bind to IdeS-cleaved anti-CD20 mAb, mAb 2095–2 fully restored antibody-dependent cell-mediated cytotoxicity (ADCC) and complement-dependent cytotoxicity (CDC) against WIL2-S cells to the otherwise inactive anti-CD20 IgG1 F(ab’)₂ fragment. Similarly, 2095–2 reinstated ADCC against MDA-MB-231 cells to an anti-CD142 IgG1 F(ab’)₂ fragment. mAb 2095–2 was also capable of eliciting both CDC and ADCC to IgG4 F(ab’)₂ fragments, an IgG subclass that has weaker ADCC and CDC when intact relative to intact IgG1. The in vitro cell-based efficacy of 2095–2 was extended to the in vivo setting using platelets as a cell clearance surrogate. In a canine model, the co-administration of 2095–2 together with IdeS-generated, platelet-targeting anti-CD41/61 F(ab’)₂ fragment not only restored platelet clearance, but did so at a rate and extent of clearance that exceeded that of intact anti-CD41/61 IgG at comparable concentrations. To further explore this unexpected amplification effect, we conducted a rat study in which 2095–2 was administered at a series of doses in combination with a fixed dose of anti-CD41/61 F(ab’)₂ fragments. Again, the combination, at ratios as low as 1:10 (w/w) 2095–2 to F(ab’)₂, proved more effective than the anti-CD41/61 IgG1 alone. These findings suggest a novel mechanism for enhancing antibody-mediated cell-killing effector functions with potential applications in pathologic settings such as tumors and acute infections where protease activity is abundant.     

Trypanosoma cruzi: antibody-dependent killing of bloodstream trypomastigotes by mouse bone marrow-derived mast cells and by mastocytoma cells

Two different populations of mast cells, that is, mastocytoma cells (P815) that were maintained either in vitro or in vivo, and mast cells obtained by differentiation of bone marrow precursor cells (MMC) in conditioned medium, were used as effector cells in antibody-dependent cytotoxic reactions (ADCC) against bloodstream trypomastigotes (BT) of Trypanosoma cruzi. The assay consisted of incubating effector cells with parasites that had been previously sensitized with immune mouse sera, immune IgG isotypes, or with medium. After the incubation period, the number of live BT was assessed. It was found that (a) cytotoxicity is antibody dependent; (b) the main isotypes involved are IgG1, IgG2a, and IgG2b; (c) both types of mast cells (mastocytoma and MMC cells) are equally efficient in killing BT; (d) mastocytoma cells degranulated by pretreatment with compound 48/80 are still able to effect ADCC; (e) on optical microscope examination, large numbers of parasites were often seen attached to the cells, but only when anti-T. cruzi antibodies were present; and (f) on electron microscope examination, no integral or ruptured parasites were seen inside the cells. We conclude that both T dependent and T independent mast cells are capable of mediating ADCC by a mechanism that is probably not dependent on granule extrusion.     

Identification of five human lymphocyte subpopulations by their differential binding of various strains of bacteria.

The ability of human peripheral blood lymphocytes to kill antibody-coated Chang liver cells in antibody-dependent cell-mediated cytotoxicity (ADCC) can be blocked with aggregated IgG (agg-IgG) or by soluble immune complexes. Dissociation of aggregates of IgG or immune complexes from the cell surface, however, resulted in partial recovery of the ability both to bind agg-IgG and to kill in the ADCC assay. Our results indicate that “unblocking” of effector cells could occur in vivo when the concentration of circulating immune complexes is lowered.     

Monoclonal anti-human tumor antibodies of six isotypes in cytotoxic reactions with human and murine effector cells

Eighty-seven murine monoclonal antibodies (MAb) produced against human tumors of various origins and representing six different immunoglobulin classes were tested for antitumor reactivity in antibody-dependent cell-mediated cytotoxicity (ADCC) and complement-dependent cytotoxicity (CDC) assays. Mouse splenocytes, thioglycolate-elicited mouse peritoneal macrophages, freshly obtained nonadherent human peripheral blood lymphocytes, and human monocytes were used as effector cells, and human or rabbit serum as the source of complement. Of all four effector cell types tested, mouse macrophages showed the highest cytotoxic activity, based on net cytotoxicity, minimum requirement for Mab concentration, and effector cell number. Different immunoglobulin classes were associated with characteristic patterns of reactivity with the various effector cells or complement, independent of the target cell type used. MAb able to mediate ADCC were found among all IgG subclasses, with IgG2a and IgG3 MAb inducing lysis with all effector cell types. IgM and IgA MAb were nonreactive in the various ADCC assays, but IgM MAb were highly cytotoxic with complement.