Live-Cell Dynamic Sensing of Cd2+ with a FRET-Based Indicator
نویسندگان
چکیده
Cd(2+) causes damages to several human tissues. Although the toxicological and carcinogenetic mechanisms of Cd(2+) have been previously established, some basic questions on this toxicant remain unclear. In this study, we constructed Met-cad 1.57, a new fluorescent resonance energy transfer (FRET)-based Cd(2+) indicator, which contains a portion of a Cd(2+)-binding protein (CadR) obtained from Pseudomonas putida as the Cd(2+) sensing key. We produced a human embryonic kidney cell line HEK-MCD157 which stably expresses the Met-cad 1.57 for further investigations. Both fluorescence spectroscopy and FRET microscopic ratio imaging were used to monitor the Cd(2+) concentration within the living HEK-MCD157 cells. The dissociation constant of Met-cad 1.57 was approximately 271 nM. The function of Ca(2+) channels as a potential Cd(2+) entry gateway was further confirmed in the HEK-MCD157 cells. The organelle-targeted property of the protein-based Cd(2+) indicator directly reveals the nucleus accumulation phenomena. In summary, a human kidney cell line that stably expresses the FRET-based Cd(2+) indicator Met-cad 1.57 was constructed for reliable and convenient investigations to determine the Cd(2+) concentration within living cells, including the identification of the entry pathway of Cd(2+) and sub-cellular sequestration.
منابع مشابه
Imaging neural spiking in brain tissue using FRET-opsin protein voltage sensors
Genetically encoded fluorescence voltage sensors offer the possibility of directly visualizing neural spiking dynamics in cells targeted by their genetic class or connectivity. Sensors of this class have generally suffered performance-limiting tradeoffs between modest brightness, sluggish kinetics and limited signalling dynamic range in response to action potentials. Here we describe sensors th...
متن کاملFRET- and PET-based sensing in a single material: expanding the dynamic range of an ultra-sensitive nitroaromatic explosives assay.
A polyethylenimine polymer derivatized with pyrene moieties suitable for the fluorescence-based detection of nitroaromatic explosives (NAC) in aqueous systems is described. The system exhibits an exceptionally wide dynamic sensing range of 7 orders of magnitude (from 33 ppt to 225 ppm TNT or Tetryl). This broad range was achieved by the combination of FRET and PET sensing mechanisms in a single...
متن کاملDevelopment of fluorescent biosensors probing RNA function
Live cell imaging of RNA or their protein binding partners is crucial to obtain an authentic picture of RNA transcription, processing and trafficking. The development of methods for tracking of specific target RNAs in diverse cellular systems has been approached by different strategies including synthetic dyes, molecular beacons and genetically encoded RNA labels. In this work, we challenged cu...
متن کاملBlue Fluorescent cGMP Sensor for Multiparameter Fluorescence Imaging
Cyclic GMP (cGMP) regulates many physiological processes by cooperating with the other signaling molecules such as cyclic AMP (cAMP) and Ca(2+). Genetically encoded sensors for cGMP have been developed based on fluorescence resonance energy transfer (FRET) between fluorescent proteins. However, to analyze the dynamic relationship among these second messengers, combined use of existing sensors i...
متن کاملQuantitative FRET Imaging to Visualize the Invasiveness of Live Breast Cancer Cells
Matrix metalloproteinases (MMPs) remodel tumor microenvironment and promote cancer metastasis. Among the MMP family proteases, the proteolytic activity of the pro-tumorigenic and pro-metastatic membrane-type 1 (MT1)-MMP constitutes a promising and targetable biomarker of aggressive cancer tumors. In this study, we systematically developed and characterized several highly sensitive and specific ...
متن کامل