Toll-like receptors (TLRs) are capable of sensing microorganisms and also several damage signals within cells, and thus are complicit in the pathogenesis of a multitude of diseases. Development of tools enabling focused analysis of the proteins and the corresponding posttranslational modifications (PTMs) in the associated cell signaling pathways could be of great diagnostic value. Due to the complex molecular interactions in the biological system, single parameter provides hardly systemic information for the understanding of the dynamics in the signaling networks. We report the first time, developing a microsphere-based multiplexed suspension array to simultaneously monitor five molecules (i.e. MyD88, IκB-alpha, Lipocalin-2, TNFR1 and TRAF6) which have been identified as key mediators in TLRs assocated pathways. It allows the evaluation of multiple reactions and interactions among specific proteins in a single experiment using a limited amount of sample material. And the detection limit is at pg/mL level in current setup (i.e. IκB-alpha, Lipocalin-2, TNFR1). Subsequent measurements of several “real world” biological samples such as cell lysate, culture medium or serum/plasma were also achieved. The presented strategy enables further expansion of multiplex capacity to meet the need for the analysis of complex protein-protein interaction in time-resolved pattern, and to profile the intricate regulation of TLRs associated activation caused by various stimuli during disease courses.