Methods for inactivating in a cell a mutant allele of the elastase, neutrophil expressed gene (ELANE gene) gene having a mutation associated with severe congenital neutropenia (SCN) or cyclic neutropenia (CyN) wherein the mutant allele is selected from the group consisting of the ELANE mutants set forth in Table 1, the method comprising introducing to the cell a composition comprising: a CRISPR nuclease or a sequence encoding the CRISPR nuclease; and a first RNA molecule comprising a guide sequence portion having 17-30 nucleotides, wherein a complex of the CRISPR nuclease and the first RNA molecule affects a double strand break in the mutant allele of the ELANE gene
the method optionally further comprising introduction of a second RNA molecule comprising a guide sequence portion capable of complexing with a CRISPR nuclease, wherein the complex of the second RNA molecule and CRISPR nuclease affects a second double strand break in the ELANE gene.

Bacterial strain Clostridium histolyticum was deposited in CCM (Czech Collection of Microorganisms at Masaryk University, Faculty of Science) under No. CCM 8656. This strain produces proteolytic enzymes including collagenase, elastinase, neutral proteases and clostripain under anaerobic conditions at a temperature from 25 C. to 45 C. The strain is used for the production of a mixture of two collagenases, col 1 and col 2, with molecular weight 116 kDa and 126 kDa, and possibly clostripain. The mixture of the above-mentioned collagenases and possibly clostripain obtained from the above-mentioned strain is used for the isolation of Langerhans islets.

The present invention relates to methods for the manufacture, purification, formulation, and use of biologically active recombinant elastase proteins. Described are recombinant methods for producing therapeutically useful elastase proteins, as are pharmaceutical compositions comprising said elastase proteins. Novel recombinant elastase proteins and protein preparations are also disclosed. Methods are described for treating and preventing diseases of biological conduits using pharmaceutical compositions containing the elastase proteins of the invention.

A method for producing ACE Inhibitor peptides from a protein source or plasma is disclosed. The method utilizes proteolysis by intestinal, blood-circulating, or membrane-bound proteases. The initial synthesis step could require obtaining a protein source either from a human or animal. A protease is added to either a given plasma protein or plasma and incubated. Following incubation, the protease activity must be quenched using a protease inhibitor to inactivate the protease. After incubation with protease inhibitor, the solution will contain a mixture of bioactive ACE inhibitory peptides and inert peptides. This mixture may be purified to select for the ACE inhibitory peptides through centrifugation. The mixture may also be sterilized to remove any microbial contaminants. The ACE inhibitory peptides can be mixed with protein powders, incorporated into baked good and put into other food products to provide food products with the added benefit of lowering blood pressure.

The present invention relates to methods for the manufacture, purification, formulation, and use of biologically active recombinant elastase proteins. Described are recombinant methods for producing therapeutically useful elastase proteins, as are pharmaceutical compositions comprising said elastase proteins. Novel recombinant elastase proteins and protein preparations are also disclosed. Methods are described for treating and preventing diseases of biological conduits using pharmaceutical compositions containing the elastase proteins of the invention.

The present invention relates to methods for the manufacture, purification, formulation, and use of biologically active recombinant elastase proteins. Described are recombinant methods for producing therapeutically useful elastase proteins, as are pharmaceutical compositions comprising said elastase proteins. Novel recombinant elastase proteins and protein preparations are also disclosed. Methods are described for treating and preventing diseases of biological conduits using pharmaceutical compositions containing the elastase proteins of the invention.

The present invention relates to methods for the manufacture, purification, formulation, and use of biologically active recombinant elastase proteins. Described are recombinant methods for producing therapeutically useful elastase proteins, as are pharmaceutical compositions comprising said elastase proteins. Novel recombinant elastase proteins and protein preparations are also disclosed. Methods are described for treating and preventing diseases of biological conduits using pharmaceutical compositions containing the elastase proteins of the invention.

The present invention relates to methods for the manufacture, purification, formulation, and use of biologically active recombinant elastase proteins. Described are recombinant methods for producing therapeutically useful elastase proteins, as are pharmaceutical compositions comprising said elastase proteins. Novel recombinant elastase proteins and protein preparations are also disclosed. Methods are described for treating and preventing diseases of biological conduits using pharmaceutical compositions containing the elastase proteins of the invention.

The present invention relates to methods for the manufacture, purification, formulation, and use of biologically active recombinant elastase proteins. Described are recombinant methods for producing therapeutically useful elastase proteins, as are pharmaceutical compositions comprising said elastase proteins. Novel recombinant elastase proteins and protein preparations are also disclosed. Methods are described for treating and preventing diseases of biological conduits using pharmaceutical compositions containing the elastase proteins of the invention.

Embodiments relate to a modified cell comprising a polynucleotide encoding an antigen binding molecule and a polynucleotide encoding an agent targeting one or more extracellular matrix (ECM) molecules. In embodiments, the polynucleotide encoding the agent comprises at least a nucleic acid encoding Cathepsin K (CK), a nucleic acid encoding Neutrophil Elastase (NE), or a nucleic acid encoding MMP7. In embodiments, the nucleic acid encoding NE comprises a nucleic acid encoding NE and a nucleic acid encoding a signaling domain of IL2. In embodiments, expression of the polynucleotide encoding the agent is regulated by hypoxia-inducible factor 1-alpha (HIF1?), nuclear factor of activated T-cells (NFAT), forkhead box P3 (FOXP3), or nuclear factor kappa B (NF-?B).