Genetically modified cells that are compatible with multiple subjects, e.g., universal donor cells, and methods of generating said genetic modified cells are provided herein. The universal donor cells comprise at least one genetic modification within or near a gene that encodes one or more MHC-I or MHC-II human leukocyte antigens or a component or a transcriptional regulator of a MHC-I or MHC-II complex, wherein genetic modification comprises an insertion of a polynucleotide encoding a tolerogenic factor and/or survival factor. The universal donor cells may further comprise at least one genetic modification within or near a gene that encodes a survival factor, wherein said genetic modification comprises an insertion of a polynucleotide encoding a second tolerogenic factor and/or a different survival factor.

An antibody targeting CD73, a preparation method therefor and a use thereof. The provided monoclonal antibody can bind to a CD73 antigen with high specificity, and has high affinity and significant antitumor activity.

The present invention is inserted in the fields of nanotechnology, pharmacy and genetics and refers to specific sequences of interference RNA (siRNA), capable of silencing the gene responsible for the expression of an adhesion protein, which produces overexpressed extracellular adenosine in tumors, the enzyme ecto-5′-nucleotidase/CD73 (CD73). The specific siRNA sequences for CD73 are proposed in a nanometer scale composition in the form of liposomes or nanoemulsions in order to promote a site-directed release complex capable of being incorporated into several types of formulation, such as intratumor, intravenous injection or administration nasal. The siRNA sequences to silence CD73 can also be applied in the manufacture of kits and/or in silencing tests of CD73 for scientific research using liposomes, nanoemulsions or other transfection reagents.

This invention relates to anti-CD73 antibodies and methods of using them in treating diseases and conditions related to CD73 activity, e.g., cancer.

The present invention provides a method of treating or preventing immunoinflammatory, vascular, thrombotic or ischemic disorders in a subject, the method comprises administering to the subject an agent which dissipates nucleotide phosphates or generates a product which stimulates adenosine receptors. The present invention also provides a method of treating or preventing immunoinflammatory, thrombotic or ischemic disorders in a subject by inhibiting leukocyte infiltration into a site which comprises administering to the subject an effective amount a described agent. Agents described for use in the methods of the invention include CD73, a fragment a mutant, or a modified form thereof.

An object of the present invention is to provide a method for producing nicotinamide mononucleotide (NMN) with excellent production efficiency. The method for producing NMN according to the present invention (the first aspect) comprises the step of bringing a transformant with enhanced expression of enzymes nicotinamide phosphoribosyltransferase (Nampt), phosphoribosyl pyrophosphate synthetase (Prs) and polyphosphate kinase (Ppk), a cell-free protein synthesis reaction solution having the three enzymes expressed, or a treated product thereof into contact with a mixture containing ribose-5-phosphate (R5P), nicotinamide (NAM), ATP and polyphosphate.

The present invention provides a recombinant microorganism for producing citicoline and a method for producing citicoline by using the recombinant microorganism, wherein genes for degradation and utilization of citicoline, choline, and phosphocholine are knocked out, In addition, a pyrimidine nucleoside synthesis pathway is genetically engineered to remove feedback inhibition to the synthesis pathway. A yield of more than 20 g/L of citicoline can be obtained with recombinant strains in a 5-liter fermenter by means of a biological fermentation method, achieving industrial mass production with low citicoline production costs and less pollution; therefore, the method is a simple, environmentally friendly and has a relatively high promotion and application value.

Provided are an isolated polynucleotide, a host cell including the isolated polynucleotide, and a method of expressing a target gene in the host cell, wherein the isolated polynucleotide includes a promoter region derived from a bacterium of the genus Pseudomonas.

The present invention relates to genetically modified ascomycetous filamentous fungi, particularly of the species Thermothelomyces heterothallica, capable of producing elevated amounts of nicotinamide riboside.

The invention concerns a method for lyophilising exosomes by providing an exosome suspension in a lyophilisation buffer comprising a sugar at less than 10% w/v. The method is to preserve exosomes structural and biochemical integrity as well as the therapeutic efficacy for long term storage at ambient temperature. In one embodiment, the lyophilisation buffer comprises trehalose at 4% w/v. In another embodiment, removal of water from the frozen suspension deposits the exosomes on a biocompatible scaffold.