Abstract
Many malignant cell surface carbohydrates resulting from abnormal glycosylation patterns of certain diseases can serve as antigens for the development of vaccines against these diseases. However, carbohydrate antigens are usually poorly immunogenic by themselves, thus they need to be covalently coupled with immunologically active carrier molecules to be functional. The most well established and commonly used carriers are proteins. In recent years, the use of toll-like receptor (TLR) ligands to formulate glycoconjugate vaccines has gained significant attention because TLR ligands can serve not only as carrier molecules but also as built-in adjuvants to form fully synthetic and self-adjuvanting conjugate vaccines, which have several advantages over carbohydrate-protein conjugates and formulated mixtures with external adjuvants. This article reviews recent progresses in the development of conjugate vaccines based on TLR ligands. Two major classes of TLR ligands, lipopeptides and lipid A derivatives will be covered with more focus on monophosohoryl lipid A (MPLA) and related analogs, which are TLR4 ligands demonstrated to be able to provoke T cell-dependent, adaptive immune responses. Corresponding conjugate vaccines have shown promising application potentials to multiple diseases including cancer.
Highlights
Cells are covered by a dense glycocalyx that is mainly comprised of glycoproteins and glycolipids.The carbohydrate motifs, carrying signaling information, are involved in cell recognition and responses.Each cell uses these signals to mediate communication, proliferation, survival and various other cellular activities [1,2,3]
Conjugation sites and equivalents of carbohydrate antigen to carrier protein are random and uncontrollable, resulting in inconsistent efficacy from batch to batch. This has led to the exploration of conjugate vaccines having small molecule carriers or adjuvants, such as ligands to specific receptors like toll-like receptor (TLR), mannose receptors and lectin receptors on dendritic cells (DCs) and other antigen presenting cells (APCs)
The TLR family is a class of pattern recognition receptors (PRRs) of mammalian species, which are considered the bridge between innate and adaptive immune responses [21]
Summary
Cells are covered by a dense glycocalyx that is mainly comprised of glycoproteins and glycolipids. The carbohydrate motifs, carrying signaling information, are involved in cell recognition and responses. Each cell uses these signals to mediate communication, proliferation, survival and various other cellular activities [1,2,3]. When presented to the immune system in the proper ways, surface carbohydrates of foreign cells can serve as antigens to induce immune responses that eradicate the invasive cells. Cell surface carbohydrates are ideal candidate antigens for vaccine development. In this context, a major caveat is that carbohydrate antigens are typically weakly immunogenic [4,5,6]. Molecules 2018, 23, 1583 to carbohydrates into T cell-dependent immunities that can have improved therapeutic efficacy and lasting immunological memory [9,10,11]
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