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Unconjugated mAbs have emerged as useful cancer therapeutics. Ab-dependent cellular cytotoxicity (ADCC) is believed to be a major antitumor mechanism of some anticancer Abs. However,the factors that regulate the magnitude of ADCC are incompletely understood. In this study,we described the relationship between Ab affinity and ADCC. A series of human IgG1 isotype Abs was created from the anti-HER2/neu (also named c-erbB2) C6.5 single-chain Fv (scFv) and its affinity mutants. The scFv affinities range from 10(-7) to 10(-11) M,and the IgG Abs retain the affinities of the scFv from which they were derived. The apparent affinity of the Abs ranged from nearly 10(-10) M (the lowest affinity variant) to almost 10(-11) M (the other variants). The IgG molecules were tested for their ability to elicit ADCC in vitro against three tumor cell lines with differing levels of HER2/neu expression using unactivated human PBMC from healthy donors as the effector cells. The results demonstrated that both the apparent affinity and intrinsic affinity of the Abs studied regulate ADCC. High-affinity tumor Ag binding by the IgGs led to the most efficient and powerful ADCC. Tumor cells expressing high levels of HER2/neu are more susceptible to the ADCC triggered by Abs than the cells expressing lower amounts of HER2/neu. These findings justify the examination of high affinity Abs for ADCC promotion. Because high affinity may impair in vivo tumor targeting,a careful examination of Ab structure to function relationships is required to develop optimized therapeutic unconjugated Abs. View Publication

Although brain development abnormalities and brain cancer predisposition have been reported in some Fanconi patients,the possible role of Fanconi DNA repair pathway during neurogenesis is unclear. We thus addressed the role of fanca and fancg,which are involved in the activation of Fanconi pathway,in neural stem and progenitor cells during brain development and adult neurogenesis. Fanca(-/-) and fancg(-/-) mice presented with microcephalies and a decreased neuronal production in developing cortex and adult brain. Apoptosis of embryonic neural progenitors,but not that of postmitotic neurons,was increased in the neocortex of fanca(-/-) and fancg(-/-) mice and was correlated with chromosomal instability. In adult Fanconi mice,we showed a reduced proliferation of neural progenitor cells related to apoptosis and accentuated neural stem cells exhaustion with ageing. In addition,embryonic and adult Fanconi neural stem cells showed a reduced capacity to self-renew in vitro. Our study demonstrates a critical role for Fanconi pathway in neural stem and progenitor cells during developmental and adult neurogenesis. View Publication

TLR4 is a unique TLR because downstream signaling occurs via two separate pathways,as follows: MyD88 and Toll IL-1 receptor (TIR) domain-containing adaptor-inducing IFN-beta (TRIF). In this study,we compared and contrasted the interplay of these pathways between murine dendritic cells (DCs) and macrophages during LPS stimulation. During TLR4 activation,neither pathway on its own was critical for up-regulation of costimulatory molecules in DCs,whereas the up-regulation of costimulatory molecules was largely TRIF dependent in macrophages. LPS-induced secreted factors,of which type I IFNs were one of the active components,played a larger role in promoting the up-regulation of costimulatory molecules in macrophages than DCs. In both cell types,MyD88 and TRIF pathways together accounted for the inflammatory response to LPS activation. Furthermore,signaling of both adaptors allowed maximal T cell priming by LPS-matured DCs,with MyD88 playing a larger role than TRIF. In sum,in our experimental systems,TRIF signaling plays a more important role in LPS-induced macrophage activation than in DC activation. View Publication

When inhaled,ozone (O3) interacts with cholesterols of airway epithelial cell membranes or the lung lining fluid,generating chemically reactive oxysterols. The mechanism by which O3-derived oxysterols affect molecular function is unknown. Our data show that in vitro exposure of human bronchial epithelial cells to O3 results in the formation of oxysterols,epoxycholesterol-α and β (α-EpCh,β-EpCh) and Secosterol A and B (Seco A,SecoB),in cell lysates and apical washes. Similarly,bronchoalveolar lavage fluid obtained from human volunteers exposed to O3 contained elevated levels of these oxysterol species. As expected,O3-derived oxysterols have a pro-inflammatory effect and increase NF-κB activity. Interestingly,expression of the cholesterol efflux pump ATP-binding cassette transporter 1 (ABCA1),which is regulated by activation of the liver X receptor (LXR),was suppressed in epithelial cells exposed to O3. Additionally,exposure of LXR knockout mice to O3 enhanced pro-inflammatory cytokine production in the lung,suggesting LXR inhibits O3-induced inflammation. Using alkynyl surrogates of O3-derived oxysterols,our data demonstrate adduction of LXR with Seco A. Similarly,supplementation of epithelial cells with alkynyl-tagged cholesterol followed by O3 exposure causes observable lipid-LXR adduct formation. Experiments using Seco A and the LXR agonist T0901317 (T09) showed reduced expression of ABCA1 as compared to stimulation with T09 alone,indicating that Seco A-LXR protein adduct formation inhibits LXR activation by traditional agonists. Overall,these data demonstrate that O3-derived oxysterols have pro-inflammatory functions and form lipid-protein adducts with LXR,thus leading to suppressed cholesterol regulatory gene expression and providing a biochemical mechanism mediating O3-derived formation of oxidized lipids in the airways and subsequent adverse health effects. View Publication

Rheumatoid arthritis is characterized by progressive joint inflammation and affects {\~{}}1{\%} of the human population. We noted single-nucleotide polymorphisms (SNPs) in the apoptotic cell-engulfment genes ELMO1,DOCK2,and RAC1 linked to rheumatoid arthritis. As ELMO1 promotes cytoskeletal reorganization during engulfment,we hypothesized that ELMO1 loss would worsen inflammatory arthritis. Surprisingly,Elmo1-deficient mice showed reduced joint inflammation in acute and chronic arthritis models. Genetic and cell-biology studies revealed that ELMO1 associates with receptors linked to neutrophil function in arthritis and regulates activation and early neutrophil recruitment to the joints,without general inhibition of inflammatory responses. Further,neutrophils from the peripheral blood of human donors that carry the SNP in ELMO1 associated with arthritis display increased migratory capacity,whereas ELMO1 knockdown reduces human neutrophil migration to chemokines linked to arthritis. These data identify 'noncanonical' roles for ELMO1 as an important cytoplasmic regulator of specific neutrophil receptors and promoter of arthritis. View Publication

Significance: Heart disease is the leading cause of death in the United States,yet research is limited by the inability to culture primary cardiac cells. Cardiomyocytes (CMs) derived from human induced pluripotent stem cells (iPSCs) are a promising solution for drug screening and disease modeling. Aim: Induced pluripotent stem cell-derived CM (iPSC-CM) differentiation and maturation studies typically use heterogeneous substrates for growth and destructive verification methods. Reproducible,tunable substrates and touch-free monitoring are needed to identify ideal conditions to produce homogenous,functional CMs. Approach: We generated synthetic polyethylene glycol-based hydrogels for iPSC-CM differentiation and maturation. Peptide concentrations,combinations,and gel stiffness were tuned independently. Label-free optical redox imaging (ORI) was performed on a widefield microscope in a 96-well screen of gel formulations. We performed live-cell imaging throughout differentiation and early to late maturation to identify key metabolic shifts. Results: Label-free ORI confirmed the expected metabolic shifts toward oxidative phosphorylation throughout the differentiation and maturation processes of iPSC-CMs on synthetic hydrogels. Furthermore,ORI distinguished high and low differentiation efficiency cell batches in the cardiac progenitor stage. Conclusions: We established a workflow for medium throughput screening of synthetic hydrogel conditions with the ability to perform repeated live-cell measurements and confirm expected metabolic shifts. These methods have implications for reproducible iPSC-CM generation in biomanufacturing. View Publication

Background/Objectives: The limited translatability of preclinical experimental findings to patients remains an obstacle for successful treatment of brain diseases. Relevant models to elucidate mechanisms behind brain pathogenesis,including cell-specific contributions and cell-cell interactions,and support successful targeting and prediction of drug responses in humans are urgently needed,given the species differences in brain and blood-brain barrier (BBB) functions. Human microphysiological systems (MPS),such as Organ-Chips,are emerging as a promising approach to address these challenges. Here,we examined and advanced a Brain-Chip that recapitulates aspects of the human cortical parenchyma and the BBB in one model. Methods: We utilized human primary astrocytes and pericytes,human induced pluripotent stem cell (hiPSC)-derived cortical neurons,and hiPSC-derived brain microvascular endothelial-like cells and included for the first time on-chip hiPSC-derived microglia. Results: Using Tumor necrosis factor alpha (TNF?) to emulate neuroinflammation,we demonstrate that our model recapitulates in vivo-relevant responses. Importantly,we show microglia-derived responses,highlighting the Brain-Chip’s sensitivity to capture cell-specific contributions in human disease-associated pathology. We then tested BBB crossing of human transferrin receptor antibodies and conjugated adeno-associated viruses. We demonstrate successful in vitro/in vivo correlation in identifying crossing differences,underscoring the model’s capacity as a screening platform for BBB crossing therapeutic strategies and ability to predict in vivo responses. Conclusions: These findings highlight the potential of the Brain-Chip as a reliable and time-efficient model to support therapeutic development and provide mechanistic insights into brain diseases,adding to the growing evidence supporting the value of MPS in translational research and drug discovery. View Publication

Siglec-6 is a lectin receptor with restricted expression in the placenta,mast cells and memory B-cells. Although Siglec-6 is expressed in patients with chronic lymphocytic leukemia (CLL),its pathophysiological role has not been elucidated. We describe here a role for Siglec-6 in migration and adhesion of CLL B cells to CLL- bone marrow stromal cells (BMSCs) in vitro and compromised migration to bone marrow and spleen in vivo. Mass spectrometry analysis revealed interaction of Siglec-6 with DOCK8,a guanine nucleotide exchange factor. Stimulation of MEC1-002 CLL cells with a Siglec-6 ligand,sTn,results in Cdc42 activation,WASP protein recruitment and F-actin polymerization,which are all associated with cell migration. Therapeutically,a Siglec-6/CD3-bispecific T-cell-recruiting antibody (T-biAb) improves overall survival in an immunocompetent mouse model and eliminates CLL cells in a patient derived xenograft model. Our findings thus reveal a migratory role for Siglec-6 in CLL,which can be therapeutically targeted using a Siglec-6 specific T-biAb. Siglec-6 is often overexpressed in chronic lymphocytic leukaemia (CLL),but its role is unclear. Here,the author report that Siglec-6 regulates the migration and adhesion of CLL B cells via interaction with sialyl Tn on bone marrow stromal cells driving invasion which could be therapeutically targeted using a Siglec-6/CD3-bispecfiic antibody. View Publication

BackgroundFANCA mutations have been detected in a variety of cancers and found to be pro-carcinogenic. However,no functional studies have been identified regarding the involvement of FANCA in the occurrence and the immune response of LUAD.MethodsThe mRNA expression and overall survival rates of FANCA were evaluated by the TIMER,PrognoScan and TCGA database in LUAD tissues,and FANCA expression was further validated by clinical serum samples using ELISA. The correlation between FANCA and immune infiltration level was investigated via TISIDB database and CIBERSORT algorithm. The Kaplan–Meier plotter was used to further evaluate the prognostic value based on the expression levels of FANCA in related immune cells. Then,the influence of FANCA knockout on the proliferation,migration,and invasion of A549 and H1299 cells was validated using CCK8,cloning formation,and Transwell assays. Subsequently,HLA-A2-restricted FANCA antigenic peptides were predicted and synthesized by NetMHC4.0 and SYFPEITHI,and DCs were induced and cultured in vitro. Finally,DCs loaded with HLA-A2-restricted FANCA antigenic peptides were co-cultured with autologous peripheral blood lymphocyte to generate specific CTLs. The killing effects of different CTLs on LUAD cells were studied.ResultsThe results showed that high levels of FANCA in patients with LUAD were significantly correlated with worse OS survival,which was correlated with age,clinical stage,pathological T stage,M stage,and N stage in LUAD. Knockdown of FANCA in A549 and H1299 cells significantly inhibited proliferation,metastasis,and invasion in vitro. In addition,FANCA was significantly related to immune infiltrate,genomic alterations and TMB. FANCA expression infuenced the prognosis of LUAD patients by directly affecting immune cell infltration. Finally,HLA-A2-restricted FANCA antigenic peptides were synthesized. And FANCA 146–154 (SLLEFAQYL) antigenic peptide exhibit a stronger affinity for DCs,and induce CTLs to produce stronger targeted killing ability for LUAD cells at an effector-to-target ratio of 40:1.ConclusionThese results demonstrated that the elevation of FANCA promotes malignant phenotype of LUAD,and the potential peptide P2 (SLLEFAQYL) derived from FANCA may be used as an epitope vaccine for the treatment of LUAD. View Publication

The selection of genetically engineered immune or hematopoietic cells in vivo after gene editing remains a clinical problem and requires a method to spare on-target toxicity to normal cells. Here,we develop a base editing approach exploiting a naturally occurring CD33 single nucleotide polymorphism leading to removal of full-length CD33 surface expression on edited cells. CD33 editing in human and nonhuman primate hematopoietic stem and progenitor cells protects myeloid progeny from CD33-targeted therapeutics without affecting normal hematopoiesis in vivo,thus demonstrating potential for improved immunotherapies with reduced off-leukemia toxicity. For broader application to gene therapies,we demonstrate highly efficient (>70%) multiplexed adenine base editing of the CD33 and gamma globin genes,resulting in long-term persistence of dual gene-edited cells with HbF reactivation in nonhuman primates. Using the CD33 antibody-drug conjugate Gemtuzumab Ozogamicin,we show resistance of engrafted,multiplex edited human cells in vivo,and a 2-fold enrichment for edited cells in vitro. Together,our results highlight the potential of adenine base editors for improved immune and gene therapies. Subject terms: Haematopoietic stem cells,Bone marrow transplantation,Cell biology View Publication

Viral transduction is a critical step in the manufacturing of genetically modified T cells for immunotherapies,yet conventional transduction methods suffer from low to medium efficiency,high vector consumption,and limited scalability. To address these challenges,we introduce the Transduction Boosting Device (TransB),an innovative,automated,and closed-system platform designed to enable efficient and scalable gene delivery and overcome the limitations of conventional transduction methods. TransB improves cell-virus interactions by facilitating proximity between target cells and viral vectors. TransB demonstrated up to 1-fold decrease in processing time,3-fold reduction in viral vector consumption,and 0.7-fold increase in transduction efficiency compared to 24—well plate method for donor T cell transduction in studies evaluating its impact on transduction process. Comparison studies transducing T cells from three different donors with Lenti-GFP vectors showed that TransB achieved an average 0.5-fold improvement in transduction efficiencies while maintaining comparable post-transduction cell recovery,viability,growth,and phenotype compared to 24—well plate. Furthermore,TransB delivered consistent performance across two different input cell numbers demonstrating scalability of the process. These findings suggest that TransB could significantly shorten the transduction time,reduce the transduction cost and improve the transduction efficiency for manufacturing genetically modified T cell therapies. It shows strong potential as a robust,efficient,and scalable platform to enhance T cell therapy manufacturing and help overcome current manufacturing challenges in the field. The online version contains supplementary material available at 10.1186/s12967-025-06836-1. View Publication

Hyper-IgM (HIGM) syndromes are primary immunodeficiencies characterized by defects of class switch recombination and somatic hypermutation. HIGM patients who carry mutations in the CD40-ligand (CD40L) gene expressed by CD4(+) T cells suffer from recurrent infections and often develop autoimmune disorders. To investigate the impact of CD40L-CD40 interactions on human B cell tolerance,we tested by ELISA the reactivity of recombinant antibodies isolated from single B cells from three CD40L-deficient patients. Antibody characteristics and reactivity from CD40L-deficient new emigrant B cells were similar to those from healthy donors,suggesting that CD40L-CD40 interactions do not regulate central B cell tolerance. In contrast,mature naive B cells from CD40L-deficient patients expressed a high proportion of autoreactive antibodies,including antinuclear antibodies. Thus,CD40L-CD40 interactions are essential for peripheral B cell tolerance. In addition,a patient with the bare lymphocyte syndrome who could not express MHC class II molecules failed to counterselect autoreactive mature naive B cells,suggesting that peripheral B cell tolerance also depends on major histocompatibility complex (MHC) class II-T cell receptor (TCR) interactions. The decreased frequency of MHC class II-restricted CD4(+) regulatory T cells in CD40L-deficient patients suggests that these T cells may mediate peripheral B cell tolerance through CD40L-CD40 and MHC class II-TCR interactions. View Publication