Abstract: The invention is directed to methods and materials useful in treating autoimmune diseases. The therapeutic agents are of the formula X--MHC--peptide or MHc--peptide--X wherein X represents a functional moiety selected from a toxin and a labeling group; MHC is an effective portion of the MHC glycoprotein, said glycoprotein dissociated from the cell surface on which it normally resides; and "peptide" represents an antigenic peptide sequence associated with an autoantigen;--represents a covalent bond or a linker bound to X and MHC or to X and peptide by covalent bonds; and--represents a covalent bond, a noncovalent association, or a linker covalently bound to or associated with the MHC and peptide. These complexes can be used to target helper T-cells which are specifically immunoreactive with autoantigens.

Abstract: The present invention is directed to complexes consisting essentially of an isolated MHC component and an autoantigenic peptide associated with the antigen binding site of the MHC component. These complexes are useful in treating autoimmune disease.

Abstract: The invention is directed to methods and materials useful in treating autoimmune diseases. The therapeutic agents are of the formula X.sup.1 MHC.sup.2 peptide or MHC.sup.2 peptide.sup.1 X wherein X represents a functional moiety selected from a toxin and a labeling group; MHC is an effective portion of the MHC glycoprotein, said glycoprotein dissociated from the cell surface on which it normally resides; and "peptide" represents an antigenic peptide sequence associated with an autoantigen; .sup.1 represents a covalent bond or a linker bound to X and MHC or to X and peptide by covalent bonds; and .sup.2 represents a covalent bond, a noncovalent association, or a linker covalently bound to or associated with the MHC and peptide. These complexes can be used to target helper T-cells which are specifically immunoreactive with autoantigens.

Abstract: Intracellularly cleavable derivatives of toxic compounds including antibiotics are described.

Abstract: The invention is directed to methods and materials useful in treating autoimmune diseases. The therapeutic agents are of the formula X--MHC--peptide or MHC--peptide--X wherein X represents a functional moiety selected from a toxin and a labeling group; MHC is an effective portion of the MHC glycoprotein, said glycoprotein dissociated from the cell surface on which it normally resides; and "peptide" represents an antigenic peptide sequence associated with an autoantigen; -- represents a covalent bond or a linker bound to X and MHC or to X and peptide by covalent bonds; and -- represents a covalent bond, to noncovalent association, or a linker covalently bound to or associated with the MHC and peptide. These complexes can be used to target helper T-cells which are specifically immunoreactive with autoantigens.

Abstract: A DNA probe has been isolated which is capable of hybridizing to an oligonucleotide sequence coding for a polypeptide from a major 64 Kilodalton protein of human cytomegalovirus (HCMVgp64). The probe has a sequence of at least seventeen (17) to as many as seven hundred twenty-one (721) nucleotides. The probe may be labelled as by radioactivity. The probe has been used to screen DNA fragments constituting a subgenomic library of human cytomegalovirus DNA to obtain DNA fragments coding for the major late protein of human cytomegalovirus. The DNA fragments coding for the major late protein of human cytomegalovirus (HCMVgp64) may be hybridized to DNA fragments of HCMV DNA from an individual having human cytomegalovirus infection. The viral DNA can be used as whole HCMV DNA or as fragments formed by digesting the human cytomegalovirus DNA with a restriction endonuclease such as one of the restriction endonucleases EcoRI, BamHI, XbaI, HindIII and PrtI.

Abstract: Compositions and devices are provided for the specific removal of components of plasma in efficient and economical ways. The devices provide for a tortuous path of the plasma through a high surface material to which is bound a binding compound for removal of the fluid component. The devices find particular application with plasma, in diagnosis, therapy, and for production of specific physiologically active materials.

Abstract: Molded articles formed of polystyrene or other polymers containing an aromatic moiety can be derivatized on the surface of the article by subjecting the molded article to a chemical reaction wherein the reaction media utilizes tetramethylsulfone as the reactant solvent and a suitable substituent group which is substituted on to the aromatic moiety of the polystyrene or other polymer by electrophilic substitution. By choosing the substituent group to further include a leaving group, further substitution of the primary substituent can be effected normally by nucleophilic substitution reaction. In this way, biologically important molecules can be attached to a polystyrene or other aromatic containing polymer without effecting certain properties of the molded article such as its optical or spectroscopic clarity.

Abstract: Blood derived fluids are subjected to modification resulting in the production of anaphylatoxins. The anaphylatoxins may then be removed by passing the modified blood through silicic acid particles in an amount sufficient to substantially reduce the anaphylatoxins, while still retaining the other blood components and without affecting adversely the use of the blood for the patient.