Proper recognition of invading pathogens and prompt initiation of host defense mechanisms are instrumental for the maintenance of organismal homeostasis. Nucleotide-binding oligomerization domain-containing (NOD)-like receptors (NLRs) serve as pathogen-recognition receptors that specifically recognize bacterial peptidoglycans. NOD2 detects muramyl dipeptide (MDP) through its carboxy-terminal leucine rich repeats (LRRs), which enables the activation of downstream inflammatory signaling. Synthesis of MDP conjugates based on solution phase chemistry have been previously reported. Our solid phase approach synthetically provides a facile approach for the conjugation of biological probes to MDP, with the advantage of minimal functional/protecting group manipulation, and reduction in the laborious process of intermediate purification and isolation. MDP conjugates that we generated using solid phase synthesis allow detection of NOD2 is cell lysates and NOD2 subcellular localization by immunofluorescence microscopy. MDP-PEG6-Cyanine5.5 conjugate selectively colocalized with WT NOD2 but not NOD2 variant found in Crohn's disease, which lacks carboxy-terminal end and cannot bind MDP. Overall, these data indicate that distinct solid phase-produced MDP conjugates can be used to examine biological properties of NOD2 and could potentially facilitate further development of NOD2 targeting agents.
Keywords: Immunofluorescence; Muramyl dipeptide; NOD2; Solid-phase synthesis.
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