Arvind Rajpal scite author profile

Antibody drug conjugates (ADCs) are a therapeutic class offering promise for cancer therapy. The attachment of cytotoxic drugs to antibodies can result in an effective therapy with better safety potential than nontargeted cytotoxics. To understand the role of conjugation site, we developed an enzymatic method for site-specific antibody drug conjugation using microbial transglutaminase. This allowed us to attach diverse compounds at multiple positions and investigate how the site influences stability, toxicity, and efficacy. We show that the conjugation site has significant impact on ADC stability and pharmacokinetics in a species-dependent manner. These differences can be directly attributed to the position of the linkage rather than the chemical instability, as was observed with a maleimide linkage. With this method, it is possible to produce homogeneous ADCs and tune their properties to maximize the therapeutic window.

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Precise determination of the diversity of a combinatorial antibody library gives insight into the human immunoglobulin repertoire

Glanville

Zhai

Berka

et al. 2009

Proc. Natl. Acad. Sci. U.S.A.

406

409

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Antibody repertoire diversity, potentially as high as 10 11 unique molecules in a single individual, confounds characterization by conventional sequence analyses. In this study, we present a general method for assessing human antibody sequence diversity displayed on phage using massively parallel pyrosequencing, a novel application of Kabat column-labeled profile Hidden Markov Models, and translated complementarity determining region (CDR) capture-recapture analysis. Pyrosequencing of domain amplicon and RCA PCR products generated 1.5 ؋ 10 6 reads, including more than 1.9 ؋ 10 5 high quality, full-length sequences of antibody variable fragment (Fv) variable domains. Novel methods for germline and CDR classification and fine characterization of sequence diversity in the 6 CDRs are presented. Diverse germline contributions to the repertoire with random heavy and light chain pairing are observed. All germline families were found to be represented in 1.7 ؋ 10 4 sequences obtained from repeated panning of the library. While the most variable CDR (CDR-H3) presents significant length and sequence variability, we find a substantial contribution to total diversity from somatically mutated germline encoded CDRs 1 and 2. Using a capture-recapture method, the total diversity of the antibody library obtained from a human donor Immunoglobulin M (IgM) pool was determined to be at least 3.5 ؋ 10 10 . The results provide insights into the role of IgM diversification, display library construction, and productive germline usages in antibody libraries and the humoral repertoire.HMM ͉ phage display ͉ pyrosequencing ͉ CDRs

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VISTA is an acidic pH-selective ligand for PSGL-1

Johnston

Pinckney

et al. 2019

Nature

266

264

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Human Responses to Influenza Vaccination Show Seroconversion Signatures and Convergent Antibody Rearrangements

Jackson

Liu

Roskin

et al. 2014

Cell Host & Microbe

240

238

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Summary B cells produce a diverse antibody repertoire by undergoing gene rearrangements. Pathogen exposure induces the clonal expansion of B cells expressing antibodies that can bind the infectious agent. To assess human B cell responses to trivalent seasonal influenza and monovalent pandemic H1N1 vaccination, we sequenced gene rearrangements encoding the immunoglobulin heavy chain, a major determinant of epitope recognition. The magnitude of B cell clonal expansions correlates with an individual’s secreted antibody response to the vaccine and the expanded clones are enriched for those expressing influenza-specific mAbs. Additionally, B cell responses to pandemic influenza H1N1 vaccination and infection in different people show a prominent family of convergent antibody heavy chain gene rearrangements specific to influenza antigens. These results indicate that microbes can induce specific signatures of immunoglobulin gene rearrangements and that pathogen exposure can potentially be assessed from B cell repertoires.

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Naive antibody gene-segment frequencies are heritable and unaltered by chronic lymphocyte ablation

Glanville

Kuo²,

Büdingen³

et al. 2011

Proc. Natl. Acad. Sci. U.S.A.

179

212

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A diverse antibody repertoire is essential for an effective adaptive immune response to novel molecular surfaces. Although past studies have observed common patterns of V-segment use, as well as variation in V-segment use between individuals, the relative contributions to variance from genetics, disease, age, and environment have remained unclear. Using high-throughput sequence analysis of monozygotic twins, we show that variation in naive V H and D H segment use is strongly determined by an individual's germ-line genetic background. The inherited segment-use profiles are resilient to differential environmental exposure, disease processes, and chronic lymphocyte depletion therapy. Signatures of the inherited profiles were observed in class switched germ-line use of each individual. However, despite heritable segment use, the rearranged complementarity-determining region-H3 repertoires remained highly specific to the individual. As it has been previously demonstrated that certain V-segments exhibit biased representation in autoimmunity, lymphoma, and viral infection, we anticipate our findings may provide a unique mechanism for stratifying individual risk profiles in specific diseases.heritable variation | next generation sequencing | V-gene S pecific biases in the antibody repertoire have been found in many diseases, from viral infections to cancers to autoimmune disorders (1-15). Although it is possible that heritable variation in the composition of the antibody repertoire could alter inherent risk to specific diseases, the diversity of the antibody repertoire has hindered direct characterization of heritable influences.Early twin studies provided some evidence of genetic variation affecting reactive titers from the antibody repertoire. Multiple studies observed both total Ig and antigen-specific titers to be more correlated in monozygotic twins than dizygotic twins or unrelated individuals (16)(17)(18). In some cases of monozygotic twins discordant for autoimmune diseases, the healthy twin often shared high autoantibody reactive titers with their affected twin (16,19,20).Early sequencing studies were able to identify some systematic biases in the antibody repertoire with limited sampling depth. The first sequencing studies to characterize V(D)J diversification mechanisms identified the gene segment recombination process, but also implied a repertoire too diverse to exhaustively interrogate by traditional sequencing technologies (21). Complete characterization of V-segment loci established ∼50 V H , 40 V κ , and 30 V λ segments in an individual, with a number of allelic variants for the majority of segments (22)(23)(24). Evaluation of use across individuals revealed biased V-gene representation that preceded selection (25)(26)(27). Quantitative PCR of V-gene families showed family use largely stable over time, with fluctuations in use correlated to antigen-specific responses (28). In the T-cell receptor (TCR) repertoire, TCRB-V use was more highly correlated in healthy monozygotic twins than unrelated individua...

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Arvind Rajpal

Location Matters: Site of Conjugation Modulates Stability and Pharmacokinetics of Antibody Drug Conjugates

Precise determination of the diversity of a combinatorial antibody library gives insight into the human immunoglobulin repertoire

VISTA is an acidic pH-selective ligand for PSGL-1

Human Responses to Influenza Vaccination Show Seroconversion Signatures and Convergent Antibody Rearrangements

Naive antibody gene-segment frequencies are heritable and unaltered by chronic lymphocyte ablation

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