?Novel transition metal complex/cluster based probes for correlative light and electron microscopy (CLEM) and universally adoptable robust protocols for labeling whole tissue mounts will be developed. The new probes and protocols will enable simultaneous localization of two or more antigens labeled using a single- step labeling procedure. Following fluorescence imaging, the fluorescently labeled targets with analogs of ruthenium(II)-poly(pyridine) will be made "visible" in the electron microscope by catalyzed deposition of electron dense silver that provides higher contrast and well defined punctuate signal as compared to the photo polymerized 3,3'-diaminobenzidine (DAB), that results in defuse signal and requires osmium tetroxide (OsO4). The proposed probes have following advantages: i) higher quantum yields (QY) than gold probes and comparable QYs to the semiconductor "quantum dots" (QDs); ii) smaller hydrodynamic radii, less toxicity and better stability in biological buffers than QDs; iii) long half-lives and large Stokes shifts for time-resolved imaging; iv) punctate signal and better signal-to-noise ratios in the EM following silver deposition as compared to photoconvertible fluorescent proteins and ReAsH reagents that use DAB/OsO4; v) possible imaging with some of the "super-resolution" techniques; and vi) correlative multiplexing when used with genetically encoded photo-convertible and EM tags. In Phase I, the proposed probes will be used to: 1) accurately locate gap junctions at "mixed synapses" (conjoined electrical and chemical synaptic components) and 2) facilitate the unambiguous identification of one or two constituent synaptic proteins found at mixed synapses and determination of the membrane "sidedness" with correlative light and electron microscopy (CLEM). Localization of mixed synapses and specific synaptic proteins is problematic because cell membranes and their constituent proteins are below the limit of resolution of light microscopic imaging techniques. CLEM will be carried out in collaboration with Dr. Eduardo Rosa- Molinar, Biological Imaging Group, University of Puerto Rico-Rio Piedras. Dr. Rosa-Molinar has been working on elucidating the spinal motor circuitry controlling the adult male Gambusia's extremely rapid (20-50 ms) coital behavior Gambusia's circuitry which is an ideal test system for performing CLEM with the new probes. In the longer term, we plan to develop reagents and protocols for correlative "super-resolution" microscopy, and serial section electron tomography (Serial Block-Face/dual beam SEM) and tilt-series TEM.
Public Health Relevance Statement: Public Health Relevance: This project will provide researchers in cell, molecular and structural biology with simple, universal reagents for correlative light and electron microscopy to study cellular life processes and disease processes at macromolecular resolution, providing structural information at the molecular level.
NIH Spending Category: Bioengineering; Nanotechnology
Project Terms: Adult; Amidone brand of methadone; Amines; analog; Antibodies; antibody conjugate; Antigens; base; Behavior; Binding (Molecular Function); Biological; Biological Process; Biosensing Techniques; Blinking; Buffers; Cell membrane; Cells; Cellular biology; Chemicals; Collaborations; Connexins; Data; Dendrimers; Deposition; Detection; Diffuse; Disease; Electron Microscope; Electron Microscopy; electron tomography; Electrons; Face; Fluorescence; fluorescence imaging; Fluorescent Dyes; Gambusias; Gap Junctions; Gold; Gold Colloid; Heavy Metals; Heme; Image; Imagery; Imaging Techniques; Immunoglobulin Fragments; improved; In Vitro; in vivo; Individual; Ions; Label; Life; Light; light microscopy; luminescence; macromolecule; male; Membrane; metal complex; Methods; Microscopic; Microscopy; Modification; Molecular; Molecular Biology; Motor; nanometer; Natural regeneration; Noise; novel; Organelles; Osmium Tetroxide; oxidation; Penetration; Phase; Phenols; Piedra; Preparation; Procedures; Process; Proteins; Protocols documentation; public health relevance; Puerto Rico; pyridine; quantum; Quantum Dots; Radial; Reagent; Reducing Agents; Research Personnel; Resolution; Rosa; Ruthenium; sample fixation; Sampling; Semiconductors; Series; Signal Transduction; Silver; Slide; Specimen; Spinal; structural biology; Structure; surface coating; Synapses; System; Techniques; Testing; Thick; Time; Tissues; Toxic effect; Transition Elements; Universities; Work
