A ratiometric fluorescence sensor based on enzymatically activatable micellization of TPE derivatives for quantitative detection of alkaline phosphatase activity in serum

Jeongmoo Lee; Seoyun Kim; Tae Hoon Kim; Seoung Ho Lee

doi:10.1039/d0ra03584j

A ratiometric fluorescence sensor based on enzymatically activatable micellization of TPE derivatives for quantitative detection of alkaline phosphatase activity in serum

RSC Adv. 2020 Jul 20;10(45):26888-26894. doi: 10.1039/d0ra03584j. eCollection 2020 Jul 15.

Authors

Jeongmoo Lee^{1

2}, Seoyun Kim^{1

2}, Tae Hoon Kim³, Seoung Ho Lee^{1

2}

Affiliations

¹ Department of Chemistry, Daegu University Gyeongsan 38453 Republic of Korea slee@daegu.ac.kr +82-53-210-7913 +82-53-850-6444.
² Institute of Natural Sciences, Daegu University Gyeongsan 38453 Republic of Korea.
³ Department of Food Science and Biotechnology, Daegu University Gyeongsan 38453 Republic of Korea.

Abstract

A novel ratiometric fluorescence assay via enzymatically activatable micellization in aqueous solution was devised for quantitative detection of alkaline phosphatase (ALP) activity. We demonstrated that the dephosphorylation of the water-soluble, phosphate-functionalized, fluorophore monomer P-TPE-TG, induced by an enzymatic reaction of ALP, leads to micelle formation in aqueous solution because its water-soluble functionality is reduced. The dephosphorylation-induced micellization of P-TPE-TG exhibited a ratiometric sensing response for various ALP concentrations (10-200 mU mL^-1) and provided a suitable sensing platform for naked eye detection with increased fluorescence quantum yield (Φ = 3.2%), even compared to a typical TPE-based sensor (Φ = 1.0%), where ALP can be sensed with a detection limit of 0.034 mU mL^-1. In addition, P-TPE-TG displayed excellent sensing performance at concentrations from 0 to 50 mU mL^-1 in diluted human serum (10%), which offers the capability to exploit ratiometric responses for bioactive substances under practical conditions.