Abstract: Disclosed are peptides comprising amino acid residues of the dimer interface of human B7-1 and B7-2 and compositions and uses thereof.

Abstract: Disclosed are peptides, compositions, combinations, kits and methods for the treatment of viral pathogen infection. Combinations and kits comprise the disclosed peptides together with an additional antiviral therapeutic agent.

Abstract: Disclosed are peptides, compositions, combinations, kits and methods for the treatment of viral pathogen infection. Combinations and kits comprise the disclosed peptides together with an additional antiviral therapeutic agent.

Abstract: Disclosed are peptides comprising amino acid residues of the dimer interface of human B7-1 and B7-2 and compositions and uses thereof.

Abstract: Disclosed are peptides comprising amino acid residues of the dimer interface of human B7-1 and B7-2 and compositions and uses thereof.

Abstract: The present disclosure relates to a method for the treatment of a non-pathogen associated inflammatory disorders in a subject in need thereof, comprising administering to said subject an isolated peptide which specifically binds to an amino acid sequence within the dimer interface of a T cell costimulatory pathway member, particularly the T cell costimulatory pathway members CD28 and CTLA4. The present disclosure also relates to pharmaceutical compositions comprising the isolated peptide and to use of the peptide in treating of a non-pathogen associated inflammatory disorders.

Abstract: The present disclosure relates to a method for the treatment of a non-pathogen associated inflammatory disorders in a subject in need thereof, comprising administering to said subject an isolated peptide which specifically binds to an amino acid sequence within the dimer interface of a T cell costimulatory pathway member, particularly the T cell costimulatory pathway members CD28 and CTLA4. The present disclosure also relates to pharmaceutical compositions comprising the isolated peptide and to use of the peptide in treating of a non-pathogen associated inflammatory disorders.

Abstract: The present disclosure relates to a method for the treatment of a non-pathogen associated inflammatory disorders in a subject in need thereof, comprising administering to said subject an isolated peptide which specifically binds to an amino acid sequence within the dimer interface of a T cell costimulatory pathway member, particularly the T cell costimulatory pathway members CD28 and CTLA4. The present disclosure also relates to pharmaceutical compositions comprising the isolated peptide and to use of the peptide in treating of a non-pathogen associated inflammatory disorders.

Abstract: Disclosed are peptides comprising amino acid residues of the dimer interface of human B7-1 and B7-2 and compositions and uses thereof.

Abstract: Disclosed are peptides and methods for the treatment of bacterial infections and associated inflammation. Effective doses and treatment protocols are disclosed.

Abstract: Disclosed are methods and compositions for the inhibition of modulation of T cell costimulatory pathway by a pathogenic agent, particularly, the inhibition of activation of a T cell costimulatory pathway by a pyrogenic exotoxin. The direct interaction of a superantigen with a specific site within the dimer interface of a CD28 family member is inhibited using immunomodulatory peptides. Specific antagonist immunomodulatory peptides comprise amino acid sequences derived from a dimer interface of a T cell co-stimulatory pathway member, or peptides which comprise an amino acid sequence which specifically binds to an amino acid sequence within the dimer interface of a T cell co-stimulatory pathway member. Compositions comprising said peptides and methods for the treatment of immune-related disorders are also disclosed. Such molecules may be used in screening for a test substance which specifically binds to the CD28 molecule and is capable of antagonizing pyrogenic exotoxin-mediated activation of Th1 lymphocytes.

Abstract: The present disclosure relates to a method for the treatment of a non-pathogen associated inflammatory disorders in a subject in need thereof, comprising administering to said subject an isolated peptide which specifically binds to an amino acid sequence within the dimer interface of a T cell costimulatory pathway member, particularly the T cell costimulatory pathway members CD28 and CTLA4. The present disclosure also relates to pharmaceutical compositions comprising the isolated peptide and to use of the peptide in treating of a non-pathogen associated inflammatory disorders.

Abstract: Disclosed are peptides and methods for the treatment of bacterial infections and associated inflammation. Effective doses and treatment protocols are disclosed.

Abstract: Disclosed are methods and compositions for the inhibition of modulation of T cell costimulatory pathway by a pathogenic agent, particularly, the inhibition of activation of a T cell costimulatory pathway by a pyrogenic exotoxin. The direct interaction of a superantigen with a specific site within the dimer interface of a CD28 family member is inhibited using immunomodulatory peptides. Specific antagonist immunomodulatory peptides comprise amino acid sequences derived from a dimer interface of a T cell co-stimulatory pathway member, or peptides which comprise an amino acid sequence which specifically binds to an amino acid sequence within the dimer interface of a T cell co-stimulatory pathway member. Compositions comprising said peptides and methods for the treatment of immune-related disorders are also disclosed. Such molecules may be used in screening for a test substance which specifically binds to the CD28 molecule and is capable of antagonizing pyrogenic exotoxin-mediated activation of Th1 lymphocytes.

Abstract: Disclosed are methods and compositions for the inhibition of modulation of T cell costimulatory pathway by a pathogenic agent, particularly, the inhibition of activation of a T cell costimulatory pathway, preferably, the CD28/B7 pathway, by a pyrogenic exotoxin. The method of the invention is based on the inhibition of the direct interaction of a superantigen with a specific site within the dimer interface of a CD28 family member, using immunomodulatory peptides. Further disclosed are specific antagonist immunomodulatory peptides comprising an amino acid sequence derived from a dimer interface of a T cell co-stimulatory pathway member, or peptides which comprise an amino acid sequence which specifically binds to an amino acid sequence within the dimer interface of a T cell co-stimulatory pathway member. Compositions comprising said peptides and methods for the treatment of immune-related disorders are also disclosed.

Abstract: The invention relates to peptides having an amino acid sequence substantially homologous to an amino sequence of a domain of a pyrogenic exotoxin, which domain forms a central turn in the exotoxin starting within ?-strand 7 and connecting the ?-strand 7, via short ?-strand 8, to ?-helix 4, and ending within ?-helix 4, based on the domain numbering of Staphylococus aureus enterotoxin B. The peptides of the invention are capable of antagonizing toxin-mediated activation of T-lymphocytes, do not have agonist activity, and are capable of eliciting protective immunity against toxic shock induced by a pyrogenic exotoxin or by a mixture of pyrogenic exotoxins.

Abstract: The invention relates to peptides comprising an amino acid sequence homologous to the amino sequence of a fragment of a pyrogenic exotoxin, and functional derivatives of said peptides, capable of eliciting protective immunity against toxic shock induced by a pyrogenic exotoxin or by a mixture of pyrogenic exotoxins. Preferred peptides comprise an amino acid sequence homologous to the amino acid sequence of a fragment of Staphylococcal aureus enterotoxin B (SEB). The invention also relates to broad spectrum pharmaceutical compositions for the treatment, protection against or short-term prophylaxis of toxin-mediated activation of T cells, comprising as active ingredient at least one peptide according to the invention or derivative thereof, and to broad spectrum vaccines for conferring long-term immunity against toxic shock induced by at least one pyrogenic exotoxin are provided. The vaccines comprise as active ingredient at least one peptide according to the invention, or derivative thereof.

Abstract: The invention relates to peptides comprising an amino acid sequence homologous to the amino sequence of a fragment of a pyrogenic exotoxin, and functional derivatives of said peptides, capable of eliciting protective immunity against toxic shock induced by a pyrogenic exotoxin or by a mixture of pyrogenic exotoxins. Preferred peptides comprise an amino acid sequence homologous to the amino sequence of a fragment of Staphylococcal aureus enterotoxin B (SEB). The invention also relates to broad spectrum pharmaceutical compositions for the treatment, protection against or short term prophylaxis of toxin-mediated activation of T cells, comprising as active ingredient at least one peptide according to the invention or derivative thereof, and to broad spectrum vaccines for conferring long term immunity against toxic shock induced by at least one pyrogenic exotoxin are provided. The vaccines comprising as active ingredient at least one peptide according to the invention, or derivative thereof.

Abstract: A cis-acting nucleotide sequence which is capable of rendering the removal of introns from a precursor transcript encoded by a gene, which gene harbors at least one such cis-acting nucleotide sequence, occurring during the production of mRNA of a gene, dependent upon activation of a trans-acting factor. The trans-acting factor is an RNA-activated protein kinase which is capable of phosphorylating the ?-subunit of eukaryotic initiation factor 2. The trans-acting factor is preferably, the RNA-activated protein kinase (PKR). The cis-acting nucleotide sequence can be derived from the 3? untranslated region of the human tumor necrosis factor ? gene (TNF-?3?-UTR) and may comprise the nucleotide sequence as denoted by SEQ ID NO:1 or biologically functional fragments, derivatives, mutants and homologues thereof.

Abstract: Disclosed are methods and compositions for the inhibition of modulation of T cell costimulatory pathway by a pathogenic agent, particularly, the inhibition of activation of a T cell costimulatory pathway, preferably, the CD28/B7 pathway, by a pyrogenic exotoxin. The method of the invention is based on the inhibition of the direct interaction of a superantigen with a specific site within the dimer interface of a CD28 family member, using immunomodulatory peptides. Further disclosed are specific antagonist immunomodulatory peptides comprising an amino acid sequence derived from a dimer interface of a T cell co-stimulatory pathway member, or peptides which comprise an amino acid sequence which specifically binds to an amino acid sequence within the dimer interface of a T cell co-stimulatory pathway member. Compositions comprising said peptides and methods for the treatment of immune-related disorders are also disclosed.