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Last Updated: April 24, 2024

Claims for Patent: 5,733,540

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Summary for Patent: 5,733,540

Title:	Protection from viral infection via colonization of mucosal membranes with genetically modified bacteria
Abstract:	This invention relates to the use of genetically modified, non-pathogenic bacteria on the mucosal surfaces of a host to inhibit infection by specific viruses at mucosal surfaces. Specifically, non-pathogenic bacteria are modified to acquire the capacity to bind and functionally inactivate specific viruses. Further manipulations are devised to ensure the persistent colonization of said bacteria on the desired mucosal surface of a host. The capacity to bind a pathogen by said bacteria may be accomplished through the expression on the bacterial surface of a molecule, either a polypeptide or carbohydrate moiety, which binds specifically to a molecule on the target virus. Such a capacity may be conferred upon said bacteria via genetic manipulations. Genetic manipulations of said bacteria may be carried out in vitro and the genetically-engineered bacteria applied onto the desired mucosal surface of a host, or genetic material may be directly introduced into bacteria which are already resident on the desired mucosal surface of a host through a vector.
Inventor(s):	Lee; Peter Poon-Hang (Palo Alto, CA)
Assignee:
Application Number:	08/401,070
Patent Claims:	1. A method of binding viral particles to non-host cells in a host to increase the minimum viral load necessary to infect the host said method comprising contacting a mucosal surface of the host with an amount of transformed bacteria sufficient to colonize the mucosal surface, said bacteria having been transformed with genetic material so as to confer upon the bacteria the capacity to bind the viral particles. 2. A method of claim 1 where the transformed bacteria expresses a polypeptide on its surface which serves as the host receptor for the virus. 3. A method of claim 2 where the bacteria are transformed with genetic material which directs surface expression of a protein with comprising an ICAM-1 domain, where the virus is a human rhinovirus, and the host is human. 4. A method of claim 2 where the bacteria are transformed with genetic material which directs surface expression of a protein with a CD4 receptor, the virus is a human immunodeficiency virus, and the host is human. 5. A method of claim 2 where the bacteria are transformed with genetic material which directs surface expression of a protein with a poliovirus receptor, the virus is a poliovirus, and the host is human. 6. A method of claim 2 where the bacteria are transformed with genetic material which directs surface expression of a protein with a human complement receptor 2, the virus is an "epstein-barr" virus, and the host is human. 7. A method of claim 1 where the transformed bacteria expresses on its surface an antibody fragment against a conserved determinant on the virus. 8. A method of claim 7 where the bacteria are transformed with genetic material which directs surface expression of an antibody fragment against a monomorphic determinant of the human HLA DR molecule, the virus is a human immunodeficiency virus, and the host is human. 9. A method of claim 7 where the bacteria are transformed with genetic material which directs surface expression of an antibody fragment against a conserved determinant on the rotavirus coat protein, the virus is a rotavirus, and the host is human. 10. A method of claim 7 where the bacteria are transformed with genetic material which directs surface expression of an antibody fragment against a conserved determinant on the herpes simplex virus coat protein, the virus is a herpes simplex virus, and the host is human. 11. A method of claim 7 where the bacteria are transformed with genetic material which directs surface expression of an antibody fragment against a conserved determinant on the human papilloma virus coat protein, the virus is a human papilloma virus, and the host is human. 12. A method of claim 7 where the bacteria are transformed with genetic material which directs surface expression of an antibody fragment against a conserved determinant on the adenovirus coat protein, the virus is an adenovirus, and the host is human. 13. A method of claim 7 where the bacteria are transformed with genetic material which directs surface expression of an antibody fragment against a conserved determinant on the respiratory syncytia virus coat protein, the virus is a respiratory syncytia virus, and the host is human. 14. A method of claim 7 where the bacteria are transformed with genetic material which directs surface expression of an antibody fragment against a conserved determinant on the corona virus coat protein, the virus is a corona virus, and the host is human. 15. A method of claim 7 where the bacteria are transformed with genetic material which directs surface expression of an antibody fragment against a conserved determinant on the capsids of a virus selected from the group consisting of: cytomegalovirus, coxsackievirus, echovirus, hepatitis A virus and parainfluenza virus. 16. A method of claim 1 wherein the bacteria has a cell membrane and the virus has an envelope, wherein the transformed bacteria causes fusion between its cell membrane and the envelope of the virus. 17. A method of claim 16 wherein the transformed bacteria fuses with bound viral particles through a fusogenic domain engineered into the virus-binding polypeptide. 18. A method of claim 1 wherein the transformed bacteria is conferred sufficient selective advantage over other resident bacteria to allow said transformed bacteria to successfully colonize and survive indefinitely on a selected mucosal surface. 19. A method of claim 18 wherein the transformed bacteria is conferred enhanced ability to adhere to a host mucosal surface through a domain in the heterologous protein which binds to a determinant on a selected mucosal surface. 20. A method of claim 1 where the mucosal surface is the nasopharynx, oropharynx, esophagus, small intestines, large intestines, rectum, vagina, or penis. 21. A method of claim 1 where the transformed bacteria is resistant to an antibiotic and is co-administered with said antibiotic to enhance colonization of the transformed bacteria. 22. A method of claim 1 where the transformed bacteria is co-administered with an enzyme which degrades the mucosal surface to enhance colonization of the transformed bacteria. 23. A method of claim 22 wherein the enzyme is DNAse, peptidase, collagenase, hyaluronidase, or other carbohydrate degrading enzymes. 24. A method of claim 1 where transformed bacteria are applied to a mucosal surface through the use of a liquid solution, foam, suppository, sponge, or capsule. 25. A method of inhibiting an infection transmitted through vaginal intercourse by the application of transformed bacterial into the vaginal vault at the time of intercourse that binds and inactivates an infectious agent. 26. A method of claim 25 wherein the bacteria inactivate a pathogen selected from the group consisting of: HIV, HPV, HSV, gonorrhea, syphilis and chlamydia. 27. A method of claim 25 where the transformed bacteria are administered in the form of a vaginal foam or sponge, and may be administered in conjunction with other agents such as nonbacteriocidal spermicides. 28. A method of preventing the spread of a viral pathogen from an infected individual to others with transformed bacteria by administering an amount of bacteria sufficient to colonize the mucosal surfaces of the infected individual wherein said bacteria bind and inactivate infectious viral particles exiting the infected host.

Details for Patent 5,733,540

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Applicant	Tradename	Biologic Ingredient	Dosage Form	BLA	Approval Date	Patent No.	Expiredate
Bausch & Lomb Incorporated	VITRASE	hyaluronidase	Injection	021640	05/05/2004	⤷ Try a Trial	2039-03-29
Bausch & Lomb Incorporated	VITRASE	hyaluronidase	Injection	021640	12/02/2004	⤷ Try a Trial	2039-03-29
Amphastar Pharmaceuticals, Inc.	AMPHADASE	hyaluronidase	Injection	021665	10/26/2004	⤷ Try a Trial	2039-03-29
>Applicant	>Tradename	>Biologic Ingredient	>Dosage Form	>BLA	>Approval Date	>Patent No.	>Expiredate

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