Xiaohong Cen scite author profile

Toll-like receptors (TLRs) activation enables host to recognize a large number of pathogen-associated molecule patterns (PAMPs), ignite immune cells to discriminate between self and non-self, and then promote the following innate and adaptive immune responses. Accumulated clinical/preclinical evidences have proven TLRs to be critical role in the autoimmune diseases, including inflammatory and tumor-associated diseases. Activation of TLRs is becoming or has been a target for cancer treatment. It is shown that TLRs can induce preferable anti-tumor effect by eliciting inflammatory cytokines expression and cytotoxic T lymphocytes (CTLs) response. As adjuvant, TLRs agonists can launch a strong immune response to assist cancer radiotherapy and bio-chemotherapy. On the other hand, tumor-associated antigens acting as PAMPs, can also activate TLRs and induce tumor gene-related programmed cell death, including apoptosis, autophagy and programmed necrosis. While there are also arguments that the excessive TLRs expression will promote tumor deterioration in various organisms, as the TLR-induced inflammation will accelerate the cancer cells boost in the tumor microenvironment (TME). However, the effect of TLRs acting on cancers is still not quite clear today. In this review, we will summarize the recent researches of TLRs in cancer treatment and their role in TME, giving a brief overview on future expectation.

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Targeting pattern-recognition receptors to discover new small molecule immune modulators

Zhu

Cen

et al. 2018

European Journal of Medicinal Chemistry

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TLR1/2 Specific Small‐Molecule Agonist Suppresses Leukemia Cancer Cell Growth by Stimulating Cytotoxic T Lymphocytes

et al. 2019

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Toll‐like receptor 2 (TLR2) expressed on antigen presenting cells evokes a series of critical cytokines, which favor the development of tumor‐specific cytotoxic T lymphocytes (CTLs). Therefore, TLR2 represents an attractive cancer immunotherapeutic target. Here, a synthetic library of 14 000 compounds together with a series of newly developed compounds for NF‐κB activation using HEK‐Blue hTLR2 cells is initially screened. Following further screening in a variety of cells including HEK‐Blue hTLRs reporter cells, murine, and human macrophage cell lines, a potent small molecule agonist 23 (SMU‐Z1) is identified, which specifically activates TLR2 through its association with TLR1, with a EC 50 of 4.88 ± 0.79 × 10 −9 m . Toxicology studies, proinflammatory cytokines (e.g., TNF‐α, IL‐1β, IL‐6, and nitric oxide) and target‐protein based biophysical assays demonstrate the pharmacologically relevant characteristics of SMU‐Z1. In addition, SMU‐Z1 promotes murine splenocyte proliferation and upregulates the expression of CD8 + T cells, NK cells and DCs, which results in a significant antitumor effect in a murine leukemia model. Finally, the induced tumors in three out of seven mice disappear after administration of SMU‐Z1. Our studies thus identify a novel and potent TLR1/2 small molecule agonist, which displays promising immune adjuvant properties and antitumor immunity.

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Structure-based discovery of a specific TLR1–TLR2 small molecule agonist from the ZINC drug library database

et al. 2018

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We report herein the identification of urea structure-like small molecules by structure-based virtual screening of 10.5 million compounds. Based on a variety of HEK-Blue hTLRs reporter cell assay results, we validated a TLR1/2-specific small molecule agonist, ZINC666243 (SMU127), with EC50 of 0.55 ± 0.01 μM. SMU127 stimulates NF-κB activation and promotes TNFα secretion in human macrophages and mononuclear cells. Moreover, the in vivo assay indicated that SMU127 could inhibit the growth of breast cancer tumors in BABL/c mice. This work has shown for the first time that a small molecule TLR1/2 agonist can inhibit breast cancer in vivo.

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A highly selective and sensitive chemiluminescent probe for leucine aminopeptidase detection in vitro, in vivo and in human liver cancer tissue

et al. 2022

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Xiaohong Cen

The Role of Toll-Like Receptor in Inflammation and Tumor Immunity

Targeting pattern-recognition receptors to discover new small molecule immune modulators

TLR1/2 Specific Small‐Molecule Agonist Suppresses Leukemia Cancer Cell Growth by Stimulating Cytotoxic T Lymphocytes

Structure-based discovery of a specific TLR1–TLR2 small molecule agonist from the ZINC drug library database

A highly selective and sensitive chemiluminescent probe for leucine aminopeptidase detection in vitro, in vivo and in human liver cancer tissue

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