Highlights d Th1 functionalities are reduced by persisting antigen in doseand time-dependent manner d Signaling pathways are adjusted to persisting antigen with different sensitivities d Gene transcription is dynamically and reversibly adjusted to persisting antigen d About half of the genes affected by antigen persistence respond in a dose-specific manner
A repertoire of monoclonal antibodies was generated by immunization of mice with cancer-associated glycoprotein CA19.9, and two of them were selected as optimal capture and detecting counterparts for sandwich test system for detection of CA19.9. Fine epitope specificity of the antibodies was determined using printed glycan array, enzyme-linked immunosorbent assay, and inhibitory enzyme-linked immunosorbent assay. Unexpectedly, both immunoglobulins did not bind key epitope of CA19.9 glycoprotein, tetrasaccharide SiaLe A , as well as its defucosylated form sialyl Le C (known as CA-50 epitope). The antibodies were found to have different glycan-binding profiles; however, they recognized similar glycotopes with common motif Galβ1-3GlcNAcβ (Le C ), thus resembling specificity of human natural cancer-associated anti-Le C antibodies. We propose that cancer-specific glycopeptide epitope includes Galβ1-3GlcNAcβ fragment of a glycoprotein O-chain in combination with proximal hydrophobic amino acid(s) of the polypeptide chain.
Exhausted immune responses to chronic diseases represent a major challenge to global health. We studied CD4+ T cells in a mouse model where presentation of their antigen can be regulated. When the cells are driven through the effector phase, but are then exposed to different levels of persistent antigen, they lose their Th1 functions, upregulate exhaustion and anergy markers, modulate their MAP kinase, mTORC1 and Ca2+/calcineurin signaling pathways with dose and time, lose their capacity to transmit help to B cells and undergo, at the highest dose, apoptosis. Transcriptomic analyses show the dynamic adjustment of gene expression and the accumulation of TCR signals over a period of weeks. The cells also adapt to antigen removal and recover their functionality while losing exhaustion and anergy markers. Our data suggest an adjustable response of CD4+ T cells to different levels of persisting antigen and contribute to a better understanding of chronic disease.
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