The invention relates to a pharmaceutical composition containing a PLP-dependent enzyme and optionally its cofactor, pyridoxal phosphate (PLP), and/or a phosphate or non-phosphate precursor of PLP, its use as a drug, its production method and a therapeutic treatment method related to it. The pharmaceutical composition comprises erythrocytes and a pharmaceutically acceptable vehicle, the erythrocytes encapsulating the PLP-dependent enzyme. The PLP-dependent enzyme may be methioninase, tyrosine phenol-lyase, tyrosine aminotransferase or cystathionine beta-synthase.

Disclosed herein are oxalate inducing enzymes with pH and thermal stability and methods of using for treatment of oxalate related conditions for in food processing.

Disclosed herein are oxalate inducing enzymes with pH and thermal stability and methods of using for treatment of oxalate related conditions for in food processing.

The present invention relates to: a composition for alleviating or treating pain, the composition comprising glutamate decarboxylase and a gene coding for an anti-inflammatory cytokine; and a method for alleviating or treating pain by using the composition.

The present invention relates to: a composition for alleviating or treating pain, the composition comprising glutamate decarboxylase and a gene coding for an anti-inflammatory cytokine; and a method for alleviating or treating pain by using the composition.

Genetically engineered microorganisms, e.g., genetically engineered bacteria, compositions and formulations thereof, as well as methods for characterizing, dosing, and determining the activity of the bacteria, compositions, and formulations, e.g., using a live cell counting method are disclosed.

Genetically engineered microorganisms, e.g., genetically engineered bacteria, compositions and formulations thereof, as well as methods for characterizing, dosing, and determining the activity of the bacteria, compositions, and formulations, e.g., using a live cell counting method are disclosed.

Provided is a use of an agent for regulating an amino acid level in preparing a drug for treating Alzheimer's disease in a subject.

Provided is a use of an agent for regulating an amino acid level in preparing a drug for treating Alzheimer's disease in a subject.

The present invention relates to an inhibitory peptide capable of disrupting a Heparanase/Tissue Factor complex. The invention further provides methods and kits for determining heparanase procoagulant activity in a biological sample. The invention also relates to diagnostic methods for the detection and/or monitoring of a coagulation-related pathologic disorder in a mammalian subject. The invention further relates to compositions comprising heparanase and at least one tissue factor, uses and methods based thereon in the treatment, amelioration and prevention of coagulation-related pathologic conditions. The invention still further relates to methods for screening a coagulation modulatory compound, methods and uses based thereon in the treatment, amelioration and prevention of coagulation-related pathologic conditions.