Abstract: CRF receptor agonists, especially CRF receptor-1 agonists such as CRF, urocortin, sauvagine or urotensin 1, can be used for the prevention or inhibition of neuronal cell death in a mammal suffering from or susceptible to chronic neurodegenerative disease (e.g. Alzheimer's disease, Parkinson's disease or Huntington's disease), traumatic (mechanical) neuronal injury, epilepsy-associated neuronal loss, paralysis, or spinal chord injury. CRF receptor-1 agonists can also be administered to aid the prevention or inhibition of neuronal cell death in a mammal suffering from or suceptible to cerebral ischaemia (stroke). Also, where neuronal cell death is potentiated by inhibition or suppression of the PI 3-kinase signalling pathway, a treatment comprises administering to the mammal an effective amount of a CRF receptor agonist.

Abstract: CRF receptor agonists, especially CRF receptor-1 agonists such as CRF, urocortin, sauvagine or urotensin 1, can be used for the prevention or inhibition of neuronal cell death in a mammal suffering from or susceptible to chronic neurodegenerative disease (e.g. Alzheimer's disease, Parkinson's disease or Huntington's disease), traumatic (mechanical) neuronal injury, epilepsy-associated neuronal loss, paralysis, or spinal chord injury. CRF receptor-1 agonists can also be administered to aid the prevention or inhibition of neuronal cell death in a mammal suffering from or susceptible to cerebral ischaemia (stroke). Also, where neuronal cell death is potentiated by inhibition or suppression of the PI 3-kinase signalling pathway, a treatment comprises administering to the mammal an effective amount of a CRF receptor agonist.

Abstract: Disclosed are derivatives of gangliosides and of N-acyl-N-lyso-gangliosides, of N'-acyl-N'-lyso-gangliosides and N,N'-di- or poly-acyl-N,N'-di-lyso-gangliosides, in which at least one of the hydroxyl groups in the saccharide, sialic or ceramide residues is esterified with sulfuric acid, functional derivatives thereof, and their salts with either inorganic or organic bases and the acid addition salts, except persulfated derivatives at the hydroxyl, sialic and ceramide groups of the GM.sub.1, GD.sub.1a, GD.sub.1b and GT.sub.1b gangliosides. Such compounds have antineurotoxic and neurotogenic activity and may therefore be used in pharmaceutical preparations. Also a marked modulating effect on the expression of the CD.sub.4 molecule in immune system cells has been shown.

Abstract: Semisynthetic analogues of gangliosides selected from the group consisting of N-sulfo-, N-hydrocarbyl-sulfonyl- and N-hydrocarbyloxy-sulfonyl-N,N'-dilyso-gangliosides and the N'-acyl derivatives thereof, N'-sulfo-, N'-hydrocarbylsulfonyl- and N'-hydrocarbyloxy-sulfonyl-N,N'-dilyso-gangliosides and the N-acyl derivatives thereof, N,N'-di or polysulfo-N,N'-di- or poly-lyso-gangliosides, N,N'-di- or polyhydrocarbylsulfonyl-N,N'-di- or poly-lyso-gangliosides and N,N'-di- or polyhydrocarbyloxy-N,N'-di- or poly-lyso-gangliosides, and functional derivatives thereof, and salts of these compounds, have protective activity against neurotoxicity induced by excitatory amino acids and are foreseen to be used in therapy in the nervous system and in modulating of the expression of determinants such as CD.sub.4 on the surface of human cells in the immune system.