Single chain polypeptide fusion protein, comprising: a non-cytotoxic protease capable of cleaving a protein of the exocytic fusion apparatus of a nociceptive sensory afferent; a galanin targeting moiety; a protease cleavage site; a translocation domain; a first spacer located between the non-cytotoxic protease and the protease cleavage site; and a second spacer located between the galanin targeting moiety and the translocation domain.

A single chain polypeptide fusion protein, comprising: a non-cytotoxic protease capable of cleaving a protein of the exocytic fusion apparatus of a nociceptive sensory afferent; a galanin targeting moiety; a protease cleavage site at which site the fusion protein is cleavable by a protease; a translocation domain capable of translocating the protease from within an endosome, across the endosomal membrane and into the cytosol of the nociceptive sensory afferent; a first spacer located between the non-cytotoxic protease and the protease cleavage site; and a second spacer located between the galanin targeting moiety and the translocation domain.

A single chain, polypeptide fusion protein, comprising: a non-cytotoxic protease, which protease is capable of cleaving a protein of the exocytic fusion apparatus of a nociceptive sensory afferent (eg clostridial neurotoxin L-chain or IgA protease); a galanin Targeting Moiety that is capable of binding to a Binding Site on the nociceptive sensory afferent, which Binding Site is capable of undergoing endocytosis to be incorporated into an endosome within the nociceptive sensory afferent (eg GALR1, GALR2, or GALR3 receptor); a protease cleavage site at which site the fusion protein is cleavable by a protease, wherein the protease cleavage site is located between the non-cytotoxic protease and the galanin Targeting Moiety; a translocation domain that is capable of translocating the protease from within an endosome, across the endosomal membrane and into the cytosol of the nociceptive sensory afferent (eg HN domain of clostridial neurotoxin); a first spacer located between the non-cytotoxic protease and the protease cleavage site, wherein said first spacer comprises an amino acid sequence of from 4 to 25 amino acid residues; and a second spacer located between the galanin Targeting Moiety and the translocation domain, wherein said second spacer comprises an amino acid sequence of from 4 to 35 amino acid residues. Nucleic acid sequences encoding the polypeptide fusion proteins, methods of preparing same and uses thereof are also described (eg of treating, preventing or ameliorating pain).

The disclosure provides novel programmable targeting sequences and applications thereof. The targeting sequences can be engineered for binding to proteins, polypeptides, and other macromolecules.

The invention provides a polypeptide, for use in suppressing or treating itch, wherein the polypeptide comprises: a non-cytotoxic protease, which protease is capable of cleaving a SNARE protein in an itch-specific DRG neuron or a pruriceptor; a Targeting Moiety (TM) that is capable of binding to a Binding Site on the itch-specific DRG neuron or a pruriceptor, which Binding Site is capable of undergoing endocytosis to be incorporated into an endosome within the itch-specific DRG neuron or a pruriceptor, and wherein said itch-specific DRG neuron or a pruriceptor expresses said SNARE protein; and a translocation domain that is capable of translocating the protease from within an endosome, across the endosomal membrane and into the cytosol of the itch-specific DRG neuron or a pruriceptor; with the proviso that the polypeptide is not a clostridial neurotoxin (holotoxin) molecule.

The present invention relates to novel polypeptides derived from Neisseria meningitidis proteins, in particular auto-transporters of the trypsin-like serine protease subclass, such as IgA1P, App and AusI, and their use in immunogenic compositions i.a., vaccine compositions for the prevention and/or treatment of meningococcal infections. In particular, it provides fragments of IgA1P, App and AusI and polypeptides comprising or consisting of these fragments and fusions thereof, which may be used in immunogenic compositions, for example vaccine compositions.