Media.Player

Novel Vaccines Against Tularemia

Technology Benefits

Safer and more efficacious than previously developed tularemia vaccines.Better characterized and more stable in comparison with existing vaccines.

Technology Application

The invention can facilitate the development of tools, such as diagnostics, therapies, and vaccines, to defend against possible bioterrorism-related disease outbreaks.

Detailed Technology Description

The present invention describes novel vaccines that utilize a live attenuated recombinant vector to deliver F. tularensis immunogenic antigens in host cells in a way that mimics F. tularensis. Like F. tularensis, the vector is phagocytized by host mononuclear phagocytes, escapes from the phagosome, and inhabits the cytoplasm of the host cell. Subsequently, the vector releases immunoprotective antigens into the host cell cytoplasm for processing and presentation to the immune system in a way that mimics the processing and presentation of the same antigens by F. tularensis. Consequently, the vaccines described in the subject invention stimulate a highly potent immunoprotective response against F. tularensis challenge in the mammalian host.

Supplementary Information

Patent Number: US8206700B2
Application Number: US2009446222A
Inventor: Horwitz, Marcus A. | Jia, Qingmei | Clemens, Bai-Yu L. | Clemens, Daniel
Priority Date: 25 Oct 2006
Priority Number: US8206700B2
Application Date: 17 Apr 2009
Publication Date: 26 Jun 2012
IPC Current: A01N006300 | A01N006500
US Class: 4240931 | 4240932 | 4240934
Assignee Applicant: The Regents of the University of California
Title: Methods and compositions for treating tularemia
Usefulness: Methods and compositions for treating tularemia
Summary: The immunoprotective composition is useful for inducing an immunoprotective response against F. tularensis (claimed). It is also useful for preventing tularemia in humans and animals and producing a new vaccine against tularemia.
Novelty: New immunoprotective composition comprising an attenuated vector expressing an antigen useful for inducing an immunoprotective response against Francisella tularensis and preventing tularemia in humans and animals

Industry

Biomedical

Sub Category

Pathogen

Application No.

8206700

Others

State Of Development

Tested in animals.

Background

Tularemia infections, which are caused by Francisella tularensis, can range from mild illnesses to acute sepsis. Health experts suspect that tularemia is underrecognized and underreported; thus, the incidence of tularemia infections could be higher than the 200 cases reported each year in the United States. While natural infections of F. tularensis have become less of a threat, recent history indicates that the bacterium could be used as a biological weapon. In the 1950s and 1960s, several countries-including United States and Soviet Union-experimented with weaponizing F. tularensis in an aerosolized form. Tularemia infections caused by aerosol release could cause a variety of clinical consequences, the most likely of which being primary pneumonic tularemia, a highly fatal disease. The risk of casualties is of grave concern if the scale of exposure is greater than the capacity of the medical care system. Given the lack of approved vaccines against tularemia, a method to prevent F. tularensis infections will be needed to protect against use of this agent as a bioweapon.

Additional Technologies by these Inventors

• New Recombinant Tuberculosis BCG Vaccine for Immunocompromised Patients and Others
• Recombinant Tuberculosis BCG Vaccine Elicits a Highly Protective Host Immune Response
• Method of Producing Novel Unmarked Recombinant Vaccine Vector for Tuberculosis
• Safe and Potent Vaccines against Tularemia
• Improved Immunization Strategy Using Recombinant BCG Vaccines
• Novel Live Recombinant Booster Vaccine against Tuberculosis
• Live Recombinant Tuberculosis Vaccine

Tech ID/UC Case

21568/2007-223-0

Related Cases

2007-223-0

*Abstract

None

*Applications

The invention can facilitate the development of tools, such as diagnostics, therapies, and vaccines, to defend against possible bioterrorism-related disease outbreaks.

*IP Issue Date

Jun 26, 2012

*Principal Investigator

Name: Bai-Yu Lee Clemens

Department:

Name: Daniel Clemens

Department:

Name: Marcus Horwitz

Department:

Name: Qingmei Jia

Department:

Country/Region

USA