The present invention relates to an adenoviral vector capable of encoding a virus-like particle (VLP), said VLP displaying an inactive immune-suppressive domain (ISD). The vaccine of the invention shows an improved immune response from either of both of the response pathways initiated by CD4 T cells or CD8 T cells.

The present invention relates to the use of a CD24 protein for treating Systemic Lupus Erythematosus (Lupus, SLE).

The present invention provides novel peptides and homologues thereof. The peptides of the invention comprise (i) a T-cell epitope of an antigen (self or non-self) with a potential to trigger an immune reaction presented by a class II major histocompatibility complex (MHC) determinant and recognised by CD4+ T cell more specifically of an allergen or auto-antigen, coupled, optionally through the use of a linker to (ii) an amino acid sequence having a reducing activity, such as a thioreductase sequence. The peptides of the invention have been shown to be useful a medicine, more in particular for the prevention or treatment of immune disorders, more specifically of allergic disorders or autoimmune diseases. The present invention thus provides for the use of said peptides for the manufacture of a medicament for the prevention or treatment of an immune disorder and further provides for methods of treatment or preventing immune disorders by using said peptides. The present invention also provides for compositions comprising said peptides.

The present invention provides methods for treating or ameliorating primary progressive multiple sclerosis (PPMS) or secondary progressive multiple sclerosis (SPMS) and related symptoms by administering or implanting a depot formulation comprising glatiramer salts, such as glatiramer acetate (GA).

There is provided a peptide which is capable of binding to an MHC molecule in vitro and being presented to a T cell without antigen processing (i.e. an apitope) which peptide comprises all or a portion of the following proteolipid protein (PLP) peptides: PLP 36-61: HE ALTGTEKLIET YF SKN YQD YEYLI (SEQ ID NO. 1) PLP 179-206: TWTTCQSIAFPSKTSASIGSLCA-DARMY (SEQ ID NO. 2) PLP 207-234: GVLPWNAFPGKVCGSNLLSICKTAEFQM (SEQ ID NO. 3). There is also provided the use of such a peptide in a pharmaceutical composition and a method to treat and/or prevent a disease using such a peptide.

A composition for treating type 1 diabetes mellitus autoimmunity can include a therapeutically effective amount of two or more overlapping fragments of preproinsulin and a pharmaceutically acceptable carrier, wherein at least of the polypeptide fragments is antigenic.

Dosing regimens and methods are disclosed for upregulating protein kinase C (PKC) while reducing subsequent downregulation, com-prising administering a PKC activator once a week for three consecutive weeks followed by cessation of administration or dosing for three consecut-ive weeks. Also described are methods for improving or enhancing cognitive ability, preventing or treating cognitive impairment, preventing or treating a neurodegenerative disease or condition, and/or preventing or treating a dis-ease or condition associated with neuronal or synaptic loss according to the disclosed regimens.

The present inventors identified many nuclear proteins contained in the extract of skin tissue by mass spectrometry, randomly selected multiple partial amino acid sequences of the nuclear proteins, chemically synthesized peptides consisting of the partial amino acid sequences, and examined their activity of mobilizing mesenchymal stem cells. As a result, it was found that these multiple peptides show the activity of mobilizing mesenchymal stem cells into peripheral blood, even though their amino acid sequences are completely different from each other. The inventors also found that fragment peptides of the nuclear proteins have therapeutic effects on diseases characterized by inflammation and abnormalities of the immune system (e.g., inflammatory bowel disease and psoriasis). Based on these findings, a new regenerative medicine technology that can overcome the problems of cell transplantation therapy is provided.

The present invention provides methods for treating or ameliorating primary progressive multiple sclerosis (PPMS) or secondary progressive multiple sclerosis (SPMS) and related symptoms by administering or implanting a depot formulation comprising glatiramer salts, such as glatiramer acetate (GA).

The invention relates to an antibody which binds to myelin oligodendrocyte glycoprotein (MOG), an antibody fragment thereof, a hybridoma which produces the antibody or the antibody fragment, a nucleic acid containing a nucleotide sequence which encodes the antibody or the antibody fragment, a transformant cell containing a vector containing the nucleic acid, a method for producing the antibody or the antibody fragment, a composition containing the antibody or the antibody fragment and a method for detecting or measuring an antigen that is present in the brain, a method for diagnosing or treating a brain disease, a method for improving the property of an antibody of accumulating in the brain and a method for increasing the amount of an antibody in the brain which use the antibody or the antibody fragment.