Abstract: The present disclosure encompasses embodiments of a novel near-infrared-emitting molecular fluorophore and probes incorporating said fluorophore advantageous for in vitro and in vivo research studies. The fluorophore is robust, photostable, and possesses functionalities for easy bioorthogonal conjugation (e.g., click chemistry, hydrazone formation, Diels Alder, Staudinger ligation, etc.). It is biocompatible and emits at 711 nm in aqueous conditions. These fluorophores may be used to fluorescently tag biological molecules or structures of interest, or used as optical reporters (i.e., activatable molecular probes, fluorescent dyes) for specific biomarkers/analytes as they can be switched from “off” to “on.” This fluorophore is useful for cellular assays and preclinical small animal imaging as the near-infrared emission is highly penetrating, and the photophysical properties are outstanding. As such, the properties of this class of fluorophores could easily be translated for use in clinical applications.

Abstract: The present disclosure encompasses embodiments of a novel near-infrared-emitting molecular fluorophore and probes incorporating said fluorophore advantageous for in vitro and in vivo research studies. The fluorophore is robust, photostable, and possesses functionalities for easy bioorthogonal conjugation (e.g., click chemistry, hydrazone formation, Diels Alder, Staudinger ligation, etc.). It is biocompatible and emits at 711 nm in aqueous conditions. These fluorophores may be used to fluorescently tag biological molecules or structures of interest, or used as optical reporters (i.e., activatable molecular probes, fluorescent dyes) for specific biomarkers/analytes as they can be switched from “off” to “on.” This fluorophore is useful for cellular assays and preclinical small animal imaging as the near-infrared emission is highly penetrating, and the photophysical properties are outstanding. As such, the properties of this class of fluorophores could easily be translated for use in clinical applications.

Abstract: A method for localizing and quantifying S1R role in nociceptive processing; for providing a guide to providing an analgesic therapy; of using an S1R selective ligand as a biomarker for pathphysiological study of memory deficits and cognitive disorders; or of detecting increased S1R density at the site of nerve injury arising from neuropathic pain comprising using as a probe at least one SR1 selective compound or radioligand of the general formula III?, or IV?:

Abstract: Compounds having the general formula III?, or IV? wherein R1 can be a radical of an optionally substituted C-4 to C-7 N-containing heterocycle or a radical of an optionally substituted cyclic or acyclic tertiary amine or isoindoline-1,3-dione: R2,4,5,6 can each independently be any one or combinations of the following moieties, cyano, nitro, acyl, alkyl, amido, azido, isothiocyanate, isocyanate, optionally substituted anilino, halogens, ethers, sulfonamides, thioacyl, nitro, aromatic, heterocyclic, olefinic, acetylene, deuterium, or tritium; Y is S; Z can be either H, O, S, S—R or NR where R groups can be either H, aryls, alkyls, or cycloalkyls; “n” can be 1 to 5 carbons in length and stereoisomers, functional analogs, and pharmaceutically acceptable salts thereof and wherein the moiety bridging R1 and N can be a substituted alkylene, optionally substituted alkenylene or optionally substituted alkynylene and where the alkylene group can include an inserted C3-C5 cycloalkyl group, aromatic, and heterocycli

Abstract: Disclosed are peptides comprising a molecular scaffold portion and a loop portion that binds to integrin ?v?6. This integrin is expressed on pancreatic tumors, making the peptides useful as imaging agents, among other uses. The peptides showed single-digit nanomolar dissociation constants similar to antibodies used clinically for imaging and therapy. The peptides rapidly accumulated in ?v?6-positive tumors, which led to excellent tumor-to-normal contrast. The peptides are specific for the targeted integrin ?v?6 receptors expressed on orthotopic pancreatic tumors and various xenografts used. Additionally, pharmacokinetic-stabilization strategies endowed knots with rapid renal clearance, which significantly reduced off-target dosing.

Abstract: Compounds having the general formula II, III, or IV wherein R1 can be a radical of an optionally substituted C-4 to C-7 N-containing heterocycle or a radical of an optionally substituted cyclic or acyclic tertiary amine or isoindoline-1,3-dione: R2,3,4,5,6 can each independently be any one or combinations of the following moieties, cyano, nitro, acyl, alkyl, amido, azido, isothiocyanate, isocyanate, optionally substituted anilino, halogens, ethers, sulfonamides, thioacyl, nitro, aromatic, heterocyclic, olefinic, acetylene, deuterium, or tritium; Y can be either CH, CH2, O, S, OCH2, N—R, N—Ar, C—R, C—Ar; Z can be either H, O, S, S—R or NR.

Abstract: A method for localizing and quantifying S1R role in nociceptive processing; for providing a guide to providing an analgesic therapy; of using an S1R selective ligand as a biomarker for pathphysiological study of memory deficits and cognitive disorders; or of detecting increased S1R density at the site of nerve injury arising from neuropathic pain comprising using as a probe at least one SR1 selective compound or radioligand of the general formula III?, or IV?:

Abstract: Disclosed are peptides comprising a molecular scaffold portion and a loop portion that binds to integrin ?v?6. This integrin is expressed on pancreatic tumors, making the peptides useful as imaging agents, among other uses. The peptides showed single-digit nanomolar dissociation constants similar to antibodies used clinically for imaging and therapy. The peptides rapidly accumulated in ?v?6-positive tumors, which led to excellent tumor-to-normal contrast. The peptides are specific for the targeted integrin ?v?6 receptors expressed on orthotopic pancreatic tumors and various xenografts used. Additionally, pharmacokinetic-stabilization strategies endowed knots with rapid renal clearance, which significantly reduced off-target dosing.

Abstract: Compounds having the general formula III?, or IV? wherein R1 can be a radical of an optionally substituted C-4 to C-7 N-containing heterocycle or a radical of an optionally substituted cyclic or acyclic tertiary amine or isoindoline-1,3-dione: R2,4,5,6 can each independently be any one or combinations of the following moieties, cyano, nitro, acyl, alkyl, amido, azido, isothiocyanate, isocyanate, optionally substituted anilino, halogens, ethers, sulfonamides, thioacyl, nitro, aromatic, heterocyclic, olefinic, acetylene, deuterium, or tritium; Y is S; Z can be either H, O, S, S—R or NR where R groups can be either H, aryls, alkyls, or cycloalkyls; “n” can be 1 to 5 carbons in length and stereoisomers, functional analogs, and pharmaceutically acceptable salts thereof and wherein the moiety bridging R1 and N can be a substituted alkylene, optionally substituted alkenylene or optionally substituted alkynylene and where the alkylene group can include an inserted C3-C5 cycloalkyl group, aromatic, and heterocycli

Abstract: Radiolabeled fluorinated compounds useful for imaging in the diagnosis of Parkinson's Disease are disclosed. Methods and kits for their synthesis are also disclosed.

Abstract: Radiolabeled fluorinated compounds useful for imaging in the diagnosis of Parkinson's Disease are disclosed. Methods and kits for their synthesis are also disclosed.