The invention belongs to the field of cosmetic biotechnology, and specifically relates to an Enterobacter that degrades hyaluronic acid and a cultivation method and application thereof. The Enterobacter sp. CGJ001 of the present invention was deposited in the China General Microbiological Culture Collection Center on Oct. 10, 2019, and the preservation number is CGMCC NO. 18661. The Enterobacter strain can efficiently produce hyaluronidase, and can be used in the process of preparing low molecular hyaluronic acid and oligomeric hyaluronic acid from high molecular hyaluronic acid. The enzyme has high specificity towards hyaluronic acid, excellent thermal stability and pH stability, and is suitable for large-scale industrial application. Thus, it can replace the traditional hyaluronidase extracted from expensive animal tissues. There should be broad application prospects in the fields of medicine and cosmetics.

The present disclosure generally relates to methods and compositions comprising a protein having hyaluronidase activity to diagnose the etiology of, minimize, and treat peri-orbital hollowness with or without associated thyroid disease and to treat tear trough deformity.

Disclosed herein is an engineered bacteriophage comprising an indicator gene, wherein said indicator gene is an RNA aptamer or a green fluorescent protein (GFP) or GFP-like protein, and further wherein said indicator gene can indicate the presence of a microorganism, such as a bacterial infection. The engineered bacteriophage can be capable of infecting and killing the microorganism. The engineered microorganism can be in a composition for delivery to a subject, and can be in hyaluronic acid, for example. Also disclosed are methods of using the engineered bacteriophage to diagnose and/or treat a subject with a bacterial infection.

Provided herein are compositions and methods for treating a human patient with a complement-associated condition (e.g., PNH or aHUS) by subcutaneously co-administering to the patient a hyaluronidase (e.g., rHuPH20) and an anti-C5 antibody, or antigen binding fragment thereof (e.g., ravulizumab).

Aspects of the disclosure include telomerase inhibitor compositions formulated for subcutaneous administration. Compositions according to certain embodiments include a hyaluronidase enzyme and a telomerase inhibitor having an oligonucleotide and a lipid moiety linked to the 5′ and/or 3′ end of the oligonucleotide. Methods for subcutaneously administering the telomerase inhibitor compositions, such as in the treatment of a neoplasm are also described. Kits having or not having a subcutaneous injector are also provided.

The invention belongs to the field of cosmetic biotechnology, and specifically relates to an Enterobacter that degrades hyaluronic acid and a cultivation method and application thereof. The Enterobacter sp. CGJ001 of the present invention was deposited in the China General Microbiological Culture Collection Center on Oct. 10, 2019, and the preservation number is CGMCC NO. 18661. The Enterobacter strain can efficiently produce hyaluronidase, and can be used in the process of preparing low molecular hyaluronic acid and oligomeric hyaluronic acid from high molecular hyaluronic acid. The enzyme has high specificity towards hyaluronic acid, excellent thermal stability and pH stability, and is suitable for large-scale industrial application. Thus, it can replace the traditional hyaluronidase extracted from expensive animal tissues. There should be broad application prospects in the fields of medicine and cosmetics.

The disclosure relates to the treatment of blindness due to age-related presbyopia, age-related macular degeneration (AMD), diabetic retinopathy (DR) and/or diabetic macular edema (DME) in a human or animal. Age-related presbyopia is the loss of accommodation in any individual more than 40-50 years old, currently treated by reading glasses. AMD is the most common cause of irreversible loss of sight in persons>65 years in the western world. At this time, no treatment is available for the dry form of AMD. The dry form of AMD is characterized by vision threatening Drüsen, which are (sub)retinal accumulations of advanced glycation end products (AGEs) and fluorophores. DR and DME are the most common cause of irreversible loss of sight in persons<65 years in the western world. Current therapies for age-related presbyopia, AMD, DR and DME are disappointing and do not prevent the evolution to vision impairment, atrophy or blindness. The disclosure specifically relates to the administration of fructosamine-3-kinase and its cofactor(s). This results in deglycation and inactivation of AGEs and fluorophores.

The invention belongs to the field of cosmetic biotechnology, and specifically relates to an Enterobacter that degrades hyaluronic acid and a cultivation method and application thereof. The Enterobacter sp. CGJ001 of the present invention was deposited in the China General Microbiological Culture Collection Center on Oct. 10, 2019, and the preservation number is CGMCC NO. 18661. The Enterobacter strain can efficiently produce hyaluronidase, and can be used in the process of preparing low molecular hyaluronic acid and oligomeric hyaluronic acid from high molecular hyaluronic acid. The enzyme has high specificity towards hyaluronic acid, excellent thermal stability and pH stability, and is suitable for large-scale industrial application. Thus it can replace the traditional hyaluronidase extracted from expensive animal tissues. There should be broad application prospects in the fields of medicine and cosmetics.

Disclosed herein is an engineered bacteriophage comprising an indicator gene, wherein said indicator gene is an RNA aptamer or a green fluorescent protein (GFP) or GFP-like protein, and further wherein said indicator gene can indicate the presence of a microorganism, such as a bacterial infection. The engineered bacteriophage can be capable of infecting and killing the microorganism. The engineered microorganism can be in a composition for delivery to a subject, and can be in hyaluronic acid, for example. Also disclosed are methods of using the engineered bacteriophage to diagnose and/or treat a subject with a bacterial infection.

The present invention relates to clinically proven subcutaneous pharmaceutical compositions comprising anti-CD38 antibodies and methods of their uses in combination with bortezomib and dexamethasone.