Identification and immunological evaluation of novel TLR2 agonists through structure optimization of Pam3CSK4.

Toll-like receptor 2 (TLR2) is a bridge between innate immunity and adaptive immunity. TLR2 agonists have been exploited as potential vaccine adjuvants and antitumor agents. However, no TLR2 agonists have been approved by FDA up to now. To discover drug-like TLR2 selective agonists, a novel series of Pam3CSK4 derivatives were designed based on the crystal structure of hTLR2-hTLR1-Pam3CSK4 complex, synthesized and evaluated for their immune-stimulatory activities. Among them, 35c was identified as a murine-specific TLR2 agonist, while 35f was a human-specific TLR2 agonist. Besides, 35d (human and murine TLR2 agonist) showed TLR2 agonistic activity comparable to Pam3CSK4, which included: elevated IL-6 expression level (EC50 = 83.08 ±â€¯5.94 nM), up-regulated TNF-α and IL-6 mRNA expression and promoted maturation of DCs through activating the NF-κB signaling pathway. TLRs antibodies test showed that 35a and 35d were TLR2/1 agonists, while 35f was a TLR2/6 agonist.

Calpastatin is upregulated in non-immune neuronal cells via toll-like receptor 2 (TLR2) pathways by lipid-containing agonists.

Calpain (intracellular Ca(2+)-dependent protease) and calpastatin (calpain specific endogenous inhibitor) are widely distributed in biological systems, and have been implicated in many cellular physiological and pathological processes. Calpastatin level is of central importance to the control of calpain activity. We demonstrated for the first time that calpastatin is overexpressed in mycoplasma-contaminated cultured cells (SH-SY5Y cells that are infected by a strain of Mycoplasma hyorhinis (NDMh)). We have found that the calpastatin-upregulating activity resides in the mycoplasmal membrane lipoproteins, and is associated with NF-κB activation. Calpain-promoted proteolysis is attenuated in the NDMh lipoprotein-treated cells. Here we show that the NDMh lipoproteins promoted an increase in calpastatin in SH-SY5Y cells via the TLR2/TAK1/NF-κB pathway. The synthetic mycoplasmal lipopeptide MALP-2 and the bacterial lipopeptide PAM3CSK4 (TLR2 agonists) also promoted calpastatin upregulation. LPS (TLR4 agonist) activated NF-κB without calpastatin increase in the cell. In contrast, lipoteichoic acid (TLR2 agonist) upregulated calpastatin not via NF-κB activation, but via the MEK1/ELK1 pathway. Zymosan and peptidoglycan, TLR2 agonists that lack lipids, did not induce calpastatin upregulation. Cell treatment with a calpastatin-upregulating agonist (lipoteichoic acid) led to the attenuation of Ca(2+)-promoted calpain activity, whereas agonists that do not upregulate calpastatin (LPS, Zymosan) were ineffective. Overall, the results indicate that in these non-immune cells, calpastatin is upregulated by TLR2-agonists containing lipids, with more than one downstream pathway involved. Such agonists may be useful for studying mechanisms and factors involved in calpastatin regulation. In addition, suitable TLR2 agonists may be of interest in devising treatments for pathological processes involving excessive calpain activation.

ArtinM Grafted Phospholipid Nanoparticles for Enhancing Antibiotic Cellular Uptake Against Intracellular Infection.

BACKGROUND AND AIM: An antimicrobial delivery in the form of surface-modified lectin of lipid nanoparticles was proposed to improve cellular accumulation. ArtinM, an active toll-like receptor 2 (TLR2) agonist lectin isolated from cempedak (Arthocarpus integrifolia) seeds, was selected to induce cellular engulfment of nanoparticles within infected host cells. MATERIALS AND METHODS: Lipid nanoparticles were prepared using the emulsification technique before electrostatic adsorption of artinM. The formula comprising of rifampicin, soy phospholipid, and polysorbate 80 was optimized by Box-Behnken design to produce the desired particle size, entrapment efficiency, and drug loading. The optimum formula was characterized for morphology, in vitro release, and cellular transport. RESULTS AND DISCUSSION: Soy phospholipid showed a profound effect on controlling drug loading and entrapment efficiency. Owing to its surface activity, polysorbate 80 contributed significantly to reduce particle size; however, a higher ratio to lipid concentration resulted in a decrease of rifampicin encapsulation. The adsorption of artinM on the surface of nanoparticles was accomplished by electrostatic binding at pH 4, where this process maintained the stability of encapsulated rifampicin. A high proportion of artinM adsorbed on the surface of the nanoparticles shown by haemagglutination assay, zeta potential measurement, and transmission electron microscopy imaging. Cellular uptake revealed by confocal microscopy showed the success in transporting Nile-red labelled nanoparticles across fibroblast cells. CONCLUSION: The delivery system of nanoparticles bearing artinM becomes a potential platform technology for antibiotic targeting in the treatment of life-threatening chronic diseases caused by intracellular infections.

Evaluation of Lipopeptides as Toll-like Receptor 2 Ligands.

BACKGROUND: Peptide-based vaccines are considered to be the next generation of modern immunizations, as they are safe, easy to produce and well-defined. However, due to their weak immunogenic effect, it is important to first develop an appropriate adjuvant for peptide-based vaccines. OBJECTIVE: The aim of this work was to synthesize a series of four adjuvanting moieties as alkyne derivatives, incorporating dipalmitoyl serine (DPS), 1,3-diglyceride (DG), two hexadecane lipoamino acids (diLAA), and 2,3-dipalmitoyl-S-glycerylcysteine (Pam2Cys). Next aim was to synthesize and attach the azide derivative of biotinylated J14 peptide (model B-cell epitope) to the alkynes through copper- catalyzed alkyne-azide 1,3-dipolar cycloaddition (CuAAC) reaction. Final aim was to test the ability of the final biotin labeled conjugates to directly interact with in vitro expressed TLR2 and 8 using AlphaScreen proximity assay. METHOD: All of the peptides were synthesized by manual stepwise solid phase peptide synthesis (SPPS) on rink amide MBHA resin using HATU/DIPEA Fmoc-chemistry. The target compounds were synthesized in a solution phase using CuAAC reaction. RESULTS: Pam2Cys analogue bound to TLR2 as expected. Analogues of DPS and C16-LAA showed also affinity to TLR2, while it did not bind to the control protein (TLR8), demonstrating ability of the DPS and C16-LAA to be recognized by TLR2. CONCLUSION: Four alkyne derivatives of lipids were successfully synthesized and coupled to a biotinylated J14 peptide to give a series of self-adjuvanting ligands. These ligands showed different affinity to TLR2 upon testing by AlphaScreen assay. The DPS derivative showed the most promising affinity in comparison to the standard TLR2 agonist, Pam2Cys.