Identification of a synthetic TLR4-agonistic peptide V77-E92 derived from breast-milk αS1‑casein

Proceedings of 5th International Electronic Conference on Medicinal Chemistry Pub Date : 2019-10-30 DOI:10.3390/ecmc2019-06289

T. Saenger, S. Vordenbäumen, Juliana Bertelsbeck, E. Bleck, Matthias Schneider, J. Jose

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Abstract

Breast-milk αS1-casein was suggested as an agonist of the Toll-like receptor 4 (TLR4).1 Pathogen recognition receptor TLR4 responds to lipopolysaccharides and a wide range of molecules, from proteins to metal ions. In consequence, three criteria are required to validate agonists which directly activate TLR4 and exclude TLR4-agonisticity through contaminants.2 Recently, we demonstrated that αS1-casein fulfilled two of these criteria. (i) αS1-Casein required TLR4/MD2 complex as well as cofactor CD14 to induce IL-8 secretion via TLR4 and (ii) αS1-casein bound TLR4, MD2 and CD14.3 Aim of this study was to (iii) identify a synthetic amino acid sequence derived from human αS1-casein responsible for TLR4-agonistic effects. For this, we analyzed the amino acid sequence (AAS) of αS1-casein in silico. αS1‑Casein showed to be α-helical and was likely to be intrinsically disordered in the region corresponding to R16-K99 of αS1-casein. Six truncated variants of αS1-casein coding for parts of the AAS were purified from Escherichia coli. These variants were tested for binding to HEK293 cells transfected with TLR4 (TLR4+) by flow cytometry and their induction of IL-8 secretion via TLR4. Variants of αS1-casein truncated at the N-terminus (E35-W185, R57-W185, V77-W185) bound TLR4+ induced lower IL-8 secretion with less AAS (7.5 ng/ml, 4.8 ng/ml, 3.6 ng/ml). Variant corresponding to E93-W185 of αS1-casein was neither binding TLR4+ nor inducing IL-8 secretion. Therefore, we postulated V77-E92 derived from αS1-casein as TLR4-agonist. This was confirmed by a synthetic peptide V77-E92 derived from αS1-casein, which induced an IL-8 secretion of 0.95 ng/ml. Hence, the third criteria of TLR4-agonists fulfilled and activation of TLR4 through contamination was excluded. In conclusion, αS1-casein was proofed as an agonist directly activating TLR4. This supported our postulate that αS1-casein has at least two functions, a nutritional and an immune active one. Vordenbaumen, S. et al. Human casein alpha s1 induces proinflammatory cytokine expression in monocytic cells by TLR4 signaling. Mol Nutr Food Res 60, 1079-89 (2016). Mancek-Keber, M. & Jerala, R. Postulates for validating TLR4 agonists. Eur J Immunol 45, 356-70 (2015). Saenger, T. et al. Human αS1-casein induces IL-8 secretion by binding to the ecto-domain of the TLR4/MD2 receptor complex. Biochim Biophys Acta Gen Subj 1863, 632-643 (2019).

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母乳αS1 -酪蛋白合成tlr4激动肽V77-E92的鉴定

母乳α s1酪蛋白被认为是toll样受体4 (TLR4)的激动剂病原体识别受体TLR4响应脂多糖和广泛的分子，从蛋白质到金属离子。因此，需要三个标准来验证直接激活TLR4的激动剂，并通过污染物排除TLR4的激动性最近，我们证明α s1 -酪蛋白符合两个标准。(i) α s1 -酪蛋白需要TLR4/MD2复合物以及辅助因子CD14通过TLR4诱导IL-8分泌;(ii) α s1 -酪蛋白结合TLR4、MD2和CD14.3。本研究的目的是(iii)从人α s1 -酪蛋白中合成一个负责TLR4激动作用的氨基酸序列。为此，我们在硅片上分析了α s1酪蛋白的氨基酸序列(AAS)。αS1- Casein呈α-螺旋状，可能在αS1- Casein的R16-K99对应区域存在内在紊乱。从大肠杆菌中纯化出编码部分AAS的α s1 -酪蛋白的6个截断变体。通过流式细胞术检测这些变异是否与转染TLR4 (TLR4+)的HEK293细胞结合，并通过TLR4诱导IL-8分泌。在n端截断的α s1 -酪蛋白变体(E35-W185, R57-W185, V77-W185)结合TLR4+诱导IL-8分泌降低，AAS减少(7.5 ng/ml, 4.8 ng/ml, 3.6 ng/ml)。α s1酪蛋白E93-W185对应的变异既不结合TLR4+，也不诱导IL-8分泌。因此，我们假设α s1酪蛋白衍生的V77-E92为tlr4激动剂。α s1酪蛋白合成的肽V77-E92证实了这一点，该肽诱导IL-8分泌量为0.95 ng/ml。因此，满足TLR4激动剂的第三个标准，并排除了TLR4通过污染激活的可能性。结果表明，α s1 -酪蛋白是直接激活TLR4的激动剂。这支持了我们的假设，α s1 -酪蛋白至少有两种功能，一种是营养功能，一种是免疫功能。Vordenbaumen, S.等。人酪蛋白s1通过TLR4信号通路诱导单核细胞促炎因子的表达。食品营养学报，36(6)，379 - 389(2016)。Mancek-Keber, M. & Jerala, R.验证TLR4激动剂的假设。[J] .中国生物医学工程学报，2015,32(2):444 - 444。桑格，T.等。人α s1 -酪蛋白通过结合TLR4/MD2受体复合物的外畴诱导IL-8分泌。生物化学学报，2003,26(4):632-643(2019)。

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Proceedings of 5th International Electronic Conference on Medicinal Chemistry

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