Abstract: Methods and compositions are provided where a transfected cell that produces a hybrid protein with a reporter-containing portion and a botulinum toxin cleavage site is contacted with a botulinum toxin at elevated temperatures and/or in media having a reduced sodium concentration. Kits that include such media and a botulinum toxin are also described.
Abstract: Compositions and methods for analyzing intracellular BoNT protease activity, and especially BoNT/B, BoNT/G, BoNT/D, and/or BoNT/F protease activity are provided. Most preferably, cells express one or more recombinant hybrid proteins that include one or more fluorescent proteins and at least one BoNT protease recognition and cleavage sequence, and analysis is performed using FRET analysis.
Abstract: A molecular construct comprises a donor label, an acceptor label, a linker peptide disposed between the donor and the acceptor, the linker having a cleavage site sequence, and a spacer between at least one of (a) the donor and the cleavage site sequence and (b) the acceptor and the cleavage site sequence. Preferably, the construct is selected from the group consisting of CFP-(SGLRSRA)-SNAP-25-(SNS)-YFP (SEQ ID NO: 9), and CFP-(SGLRSRA)-synaptobrevin-(SNS)-YFP (SEQ ID NO: 10). In preferred embodiments, the linker peptide is a substrate of a botulinum neurotoxin selected from the group consisting of synaptobrevin (VAMP), syntaxin and SNAP-25, or a fragment thereof that can be recognized and cleaved by the botulinum neurotoxin. Advantageously, the spacer increases the electronic coupling between the donor label and the acceptor label relative to a corresponding construct without the spacer.
Abstract: Apparatus, systems and methods can provide improved detection of botulinum neurotoxins. In one aspect an isoquinolynyl compound can be used to enhance the sensitivity of both Förster resonance energy transfer (FRET) and non-FRET cell-based assays. In another aspect, non-FRET assays and constructs utilize a reporter that is not coupled with the second fluorophore in a manner that produces significant FRET. In that subject matter an environment cell can include an enzyme that facilitates degradation of the reporter significantly faster after the cleavage than before the cleavage, and presence of the Botulinum toxin correlates with reduction of the signal from a baseline signal. Where the environment is a cell, the cell can advantageously express both the construct that includes the reporter, and an enzyme that facilitates the degradation.
Abstract: A composition includes an artificial construct having (a) a reporter-containing portion chemically coupled to (b) a cleavage site. The cleavage site interacts with an investigational substance in a manner that cleaves the reporter-containing portion from a remainder of the construct. The cleaved portion is destroyed or otherwise degraded by the local environment, and presence of an investigational substance is evidenced by reduction in signal from the reporter. The investigational substance is preferably a Botulinum toxin (BoTN), and the cleavage sequence is all or part of a SNARE protein. The cleavable reporter-containing portion is preferably Yellow Fluorescent Protein (YFP), Citrine, Venus, or a YPet protein.
Abstract: A molecular construct comprises a donor label, an acceptor label, a linker peptide disposed between the donor and the acceptor, the linker having a cleavage site sequence, and a flexible peptide spacer between at least one of (a) the donor and the cleavage site sequence and (b) the acceptor and the cleavage site sequence. The cleavage site sequence is a protease cleavage site, and the flexible spacer peptide is positioned and dimensioned to facilitate an electronic hop between the donor and acceptor label.
Abstract: A molecular construct comprises a donor label, an acceptor label, a linker peptide disposed between the donor and the acceptor, the linker having a cleavage site sequence, and a spacer between at least one of (a) the donor and the cleavage site sequence and (b) the acceptor and the cleavage site sequence. Preferably, the construct is selected from the group consisting of CFP-(SGLRSRA)-SNAP-25-(SNS)-YFP, and CFP-(SGLRSRA)-synaptobrevin-(SNS)-YFP. In preferred embodiments, the linker peptide is a substrate of a botulinum neurotoxin selected from the group consisting of synaptobrevin (VAMP), syntaxin and SNAP-25, or a fragment thereof that can be recognized and cleaved by the botulinum neurotoxin. Advantageously, the spacer increases the electronic coupling between the donor label and the acceptor label relative to a corresponding construct without the spacer.
Abstract: Compositions and methods for inhibiting BoNT protease activity are presented. In most preferred aspects, inhibitors comprise a thiol reactive group, a zinc binding group, a redox active group, an alkylating group, and/or an electrophilic Michael addition acceptor group. Particularly preferred inhibitors include an isothiazolone ring, a thiadiazolidine dione ring, a (hydro)quinone ring, an iminophenol group, and/or a hydrazonophenol group, and inhibit BoNT/A at ?M and sub-?M concentrations.