Provided are compositions comprising super-oxide dismutase and a soluble fiber. The compositions may additionally comprise other antioxidants, vitamins and nutrients. The compositions can be used as dietary supplements and for improving health and well-being.

A transdermal peptide with a nuclear localization ability and having an amino acid sequence as shown in SEQ ID NO: 1 is disclosed. A fusion protein including a macromolecular protein with one end being linked to the transdermal peptide is also disclosed. The transdermal peptide can be used in the preparation of a medicament or a transdermal preparation for treating skin diseases. A medicament for treating a skin disease includes the transdermal peptide and a pharmaceutically acceptable excipient. The transdermal peptide enters the cells autonomously to locate in the nuclei, and can penetrate through the stratum corneum of the skin into cells in the dermis. The peptide is conveniently synthesized artificially and suitable for transdermal administration, and has a therapeutic potential via transdermal administration by carrying a drug for treating skin diseases.

The invention relates to inhibitory nucleic acids and rAAV-based compositions, methods and kits useful for treating Amyotrophic Lateral Sclerosis.

An agent for treating acute respiratory distress syndrome includes, as an active ingredient, a lecithinized superoxide dismutase represented by the general formula (I):

SOD(Q-B).sub.m(I)

(wherein, SOD represents a residue of a superoxide dismutase; Q represents a chemical crosslinking; B represents a residue of lysolecithin, in which a hydrogen atom of a hydroxyl group is removed from the lysolecithin having the hydroxyl group at the 2-position of glycerol; and m is the average number of bonds of the lysolecithin relative to one molecule of the superoxide dismutase and represents an integer of 1 or more).

The present invention relates to a bicistronic expression vector for silencing a gene specifically in astrocytes and neurons, comprising two expression cassettes comprising a first and a second silencer sequence, respectively, wherein the expression of said first silencer sequence within astrocytes is regulated by an astrocyte-specific promoter and the expression of said second silencer sequence within neurons is regulated by a neuron-specific promoter. In a preferred embodiment, said first and second silencer sequences are SOD1 silencer sequences. Pharmaceutical composition comprising said bicistronic vector and the use of the same in the treatment of motoneuron diseases are further described.

Disclosed herein are antisense compounds and methods for decreasing SOD-1 mRNA and protein expression. Such methods, compounds, and compositions are useful to treat, prevent, or ameliorate SOD-1 associated diseases, disorders, and conditions. Such SOD-1 associated diseases include amyotrophic sclerosis (ALS).

The present invention discloses a superoxide dismutase gene and a protein encoded thereby, the DNA sequence of the superoxide dismutase gene is shown in SEQ ID NO. 1, and the encoded protein sequence of the superoxide dismutase gene is shown in SEQ ID NO 2. The superoxide dismutase encoded by the SOD gene of the invention has good heat resistance and freeze-thaw resistance, and can be widely applied in the fields of cosmetics, food, medicine, environmental protection and the like. The superoxide dismutase polypeptide can be an additive into hand cream.

The present invention generally relates to dietary supplement and pharmaceutical formulations comprising layered acid protective oral dosage formulations comprising probiotics and provided as single unified or cohesive dosage form units. Each individual acid protective layer of the cohesive dosage form provides one of a different probiotic payload, a different release profile to target delivery of probiotic to a particular region in the gastrointestinal tract, or both different probiotic payloads and release profiles to target delivery of different probiotics to particular regions in the gastrointestinal tract.

Described herein are compounds and methods for tethering proteins. For example, dimers of Protein X listed in Table 1 are described, where the dimers are formed by the covalent bonding of a cysteine on the first monomer to a cysteine on the second monomer via a cyclic disulfide linker. The covalently attached dimers exhibit increased stabilization and can be used to treat neurodegenerative diseases (such as, for example, Parkinson's Disease, ALS, Alzheimer's Disease, Huntington's Disease, Epilepsy, Frontotemporal Dementia, and/or DMD), cancer, autoimmune disease, and/or Celiac disease.

Described herein are compounds and methods for tethering proteins. For example, dimers of proteins, including SOD1 and DJ-1, are described, where the dimers are formed by the covalent bonding of a cysteine on the first monomer to a cysteine on the second monomer via a cyclic disulfide linker. The covalently attached dimers exhibit increased stabilization.