Government-Owned Inventions; Availability for Licensing, 4606-4608 [E8-1259]
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4606
Federal Register / Vol. 73, No. 17 / Friday, January 25, 2008 / Notices
jlentini on PROD1PC65 with NOTICES
Licensing Status: This assay is
available nonexclusively through a
biological materials license.
Licensing Contact: Peter A. Soukas,
J.D.; 301/435–4646;
soukasp@mail.nih.gov.
Molecular Motors Powered by Proteins
Description of Technology: The
technology available for licensing and
commercial development relates to
molecular motors powered by proteins.
Some implementations describe a
molecular motor in which multiple
concentric cylinders or nested cones
rotate around a common longitudinal
axis. Opposing complementary surfaces
of the cylinders or cones are coated with
complementary motor protein pairs,
such as actin and myosin. The actin and
myosin interact with one another in the
presence of ATP to rotate the cylinders
or cones relative to one another, and
this rotational energy is harnessed to
produce work. Speed of movement is
controlled by the concentration of ATP
and the number of nested cylinders or
cones. The length of the cylinders or
cones can also be used to control the
power generated by the motor.
Another configuration forms the
motor out of a set of stacked disks,
much like CDs on a spindle. The
advantage of this form is extreme
simplicity of construction compared to
the nested cylinders or cones. In yet
another configuration, which has
aspects of both of the previous forms,
the surfaces are broken into annular
rings in order to overcome that the inner
surfaces rotate at a different rate than
the outer surfaces. This belt form may
ultimately be used in molecular
manufacturing.
Applications: Supplying power to
prosthetic implants and other medical
devices without external power sources.
Many other applications that could
use a motor in other biotechnological
areas, in addition to the medical
applications.
The inventions can be implemented
on either a microscopic or macroscopic
scale.
Development Status: Very early stage
of development.
Inventors: Thomas D. Schneider and
Ilya G. Lyakhov (NCI).
Relevant Publications: ‘‘Molecular
motor’’, Patent Publication Nos. WO
2001/009181 A1, published 02/08/2001;
CA 2380611A1, published 02/08/2001;
AU 6616600A, published 02/19/2001;
EP 1204680A1, published 05/15/2002;
and U.S. 20020083710, published 07/
04/2002.
Patent Status: HHS Reference No. E–
018–1999/0—International Application
Number PCT/US 2000/20925 filed 07/
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31/2000; granted Application AU 2002/
18688 B2, and the corresponding
European and Canadian applications
being prosecuted, all entitled
‘‘Molecular Motor.’’
HHS Reference No. E–018–1999/1—
allowed U.S. Application No. 10/
061,377 filed 02/01/2002, entitled
‘‘Molecular Motor.’’
Licensing Status: Available for nonexclusive or exclusive licensing.
Licensing Contact: Cristina
Thalhammer-Reyero, PhD, MBA; 301–
435–4507; thalhamc@mail.nih.gov.
Collaborative Research Opportunity:
The National Cancer Institute, Center for
Cancer Research Nanobiology Program
is seeking statements of capability or
interest from parties interested in
collaborative research to further
develop, evaluate, or commercialize the
Molecular Rotation Engine. Please
contact John D. Hewes, PhD at 301–435–
3121 or hewesj@mail.nih.gov for more
information.
Dated: January 16, 2008.
Steven M. Ferguson,
Director, Division of Technology Development
and Transfer, Office of Technology Transfer,
National Institutes of Health.
[FR Doc. E8–1247 Filed 1–24–08; 8:45 am]
BILLING CODE 4140–01–P
DEPARTMENT OF HEALTH AND
HUMAN SERVICES
National Institutes of Health
Government-Owned Inventions;
Availability for Licensing
National Institutes of Health,
Public Health Service, HHS.
ACTION: Notice.
AGENCY:
SUMMARY: The inventions listed below
are owned by an agency of the U.S.
Government and are available for
licensing in the U.S. in accordance with
35 U.S.C. 207 to achieve expeditious
commercialization of results of
federally-funded research and
development. Foreign patent
applications are filed on selected
inventions to extend market coverage
for companies and may also be available
for licensing.
ADDRESS: Licensing information and
copies of the U.S. patent applications
listed below may be obtained by writing
to the indicated licensing contact at the
Office of Technology Transfer, National
Institutes of Health, 6011 Executive
Boulevard, Suite 325, Rockville,
Maryland 20852–3804; telephone: 301/
496–7057; fax: 301/402–0220. A signed
Confidential Disclosure Agreement will
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be required to receive copies of the
patent applications.
3D Imaging of Mammalian Cells Using
Focused Ion Beam-Secondary Ion Mass
Spectrometry (FIB–SIMS)
Description of Technology: Available
for licensing and commercial
development is a new automated
approach to cellular imaging that allows
3D visualization of cellular organelles
and protein expression at nanometer
(nm) resolution using ion abrasion
scanning electron microscopy (IA–
SEM). The approach uses established
technologies for 3D imaging [1, 2] by
iterative use of a focused ion beam and
scanning electron beam combined with
established technologies for mass
spectrometry. Strategies to explore the
3D distribution of cellular components
are being developed with the goal of
establishing rapid methods for
determining protein, metabolite and
drug localization in the subcellular
space.
Applications: Cytology; Oncology;
Cell biology; Drug development; Drug
targeting.
Development Status: Pilot
experiments are ongoing for the
development and optimization of the
technology using commercially
available components. Clinical
applications for the diagnosis of tissue
specimens are also being explored.
Inventor: Sriram Subramaniam (NCI).
Publications:
1. J Heymann, M Hayles, I Gestmann,
L Giannuzzi, L Lich, S Subramaniam.
Site-specific 3D imaging of cells and
tissues with a dual beam microscope. J.
Struct. Biol. 2006 Jul;155(1):63–73.
2. J Heymann, D Shi, S Kim, D Bliss,
J Milne, S Subramaniam. 3D imaging of
melanoma cells using automated ‘‘ion
abrasion scanning electron
microscopy’’. Microsc Microanal. 2007
Aug;13(Suppl 2):360–361, doi 10.1017/
S1431927607079287.
Patent Status: U.S. Provisional
Application No. 60/970,070 filed 05 Sep
2007 (HHS Reference No. E–313–2007/
0–US–01); U.S. Provisional Application
No. 60/974,686 filed 24 Sep 2007 (HHS
Reference No. E–313–2007/1–US–01).
Licensing Status: Available for
exclusive or non-exclusive licensing.
Licensing Contact: Michael A.
Shmilovich, Esq.; 301/435–5019;
shmilovm@mail.nih.gov.
Collaborative Research Opportunity:
The National Cancer Institute is seeking
statements of capability or interest from
parties interested in collaborative
research and/or partnership agreements
to further develop and commercialize
tools for 3D mapping cells and tissues
at nanometer resolution. Please contact
E:\FR\FM\25JAN1.SGM
25JAN1
Federal Register / Vol. 73, No. 17 / Friday, January 25, 2008 / Notices
John D. Hewes, Ph.D. at 301–435–3121
or hewesj@mail.nih.gov for more
information.
jlentini on PROD1PC65 with NOTICES
A Drug Index to Quantify Harmful Drug
Exposure in Older Adults
Description of Technology:
Polypharmacy is the simultaneous use
of multiple drugs. It is prevalent in
individuals ages 65 and older who carry
a high burden of illness and take various
medications for treatment. Reducing the
incidence of polypharmacy in older
people presents a major challenge for
healthcare professionals. NIH scientists
have discovered a novel method to
assess polypharmacy for which
physicians can use to evaluate drug
response of patients more effectively
and determine better therapeutic
regimens for the patient. This method
calculates the total drug burden (TDB)
index associated with anticholinergic
and sedative drugs, using the equation,
TDB = BAC + BS. Further, this invention
could be implemented into a portable
computing device, such as personal
digital assistant (PDA).
Applications: Useful for physicians to
help reduce prescribing errors, lower
the incidence of adverse drug reactions
and improve medical outcomes in older
patients.
Market:
Seven percent (7%) of the elderly are
under polypharmacy and purchase over
30% of prescription drugs and 40% of
over-the-counter (OTC) drugs.
Medication misuse costs the health
care system over $177 billion dollars
and results in more than 200,000 deaths
each year.
Development Status: Early stage.
Inventors: Darrell R. Abernethy (NIA),
et al.
Patent Status: International
Application No. PCT/US06/44718 filed
17 Nov 2006 (HHS Reference No. E–
241–2006/0–PCT–01)
Licensing Status: Available for
licensing.
Licensing Contact: Rung C. Tang, J.D.;
301/435–5031; tangrc@mail.nih.gov.
Recombinant Modified Bacillus
anthracis Protective Antigen for Use
in Vaccines
Description of Invention: This
invention relates to improved methods
of preparing Bacillus anthracis
protective antigen (PA) for use in
vaccines. PA is a secreted, non-toxic
protein with a molecular weight of 83
KDa. PA is a major component of the
currently licensed human vaccine
(Anthrax Vaccine Adsorbed, AVA).
Although the licensed human vaccine
has been shown to be effective against
cutaneous anthrax infection in animals
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and humans and against inhalation
anthrax in rhesus monkeys, the licensed
vaccine has several limitations: (1) AVA
elicits a relatively high degree of local
and systemic adverse reactions,
probably mediated by variable amounts
of undefined bacterial products, making
standardization difficult; (2) the
immunization schedule requires
administration of six doses within an
eighteen (18) month period, followed by
annual boosters; (3) there is no defined
vaccine-induced protective level of
antibody to PA by which to evaluate
new lots of vaccines; and (4) AVA is
comprised of a wild-type PA. It has been
suggested that a vaccine comprising a
modified purified recombinant PA
would be effective, safe, allow precise
standardization, and require fewer
injections.
This invention claims methods of
producing and recovering PA from a cell
or organism, particularly a recombinant
cell or microorganism. The invention
claims production and purification of
modified PA from a non-sporogenic
strain of Bacillus anthracis. In contrast
to other previously described methods,
greater quantities of PA are obtainable
from these cells or microorganisms.
Specifically, a scalable fermentation and
purification process is claimed that is
suitable for vaccine development, and
that produces almost three times more
product than earlier-reported processes.
This is accomplished using a
biologically inactive protease-resistant
PA variant in a protease-deficient nonsporogenic avirulent strain of B.
anthracis (BH445). One of the PA
variants described in the patent
application lacks the furin and
chymotrypsin cleavage sites.
The invention relates to improved
methods of producing and recovering
sporulation-deficient B. anthracis
mutant stains, and for producing and
recovering recombinant B. anthracis
protective antigen (PA), especially
modified PA which is protease resistant,
and to methods of using of these PAs or
nucleic acids encoding these PAs for
eliciting an immunogenic response in
humans, including responses which
provide protection against, or reduce the
severity of, B. anthracis bacterial
infections and which are useful to
prevent and/or treat illnesses caused by
B. anthracis, such as inhalation anthrax,
cutaneous anthrax and gastrointestinal
anthrax.
Application: Improved B. anthracis
vaccines.
Developmental Status: Phase I clinical
studies are being performed.
Inventors: Stephen Leppla (NIDCR),
M. J. Rosovitz (NIDCR), John Robbins
(NICHD), Rachel Schneerson (NICHD)
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4607
Patent Status:
U.S. Provisional Application No. 60/
402,285 filed 09 Aug 2002 (HHS
Reference No. E–268–2002/0–US–01).
U.S. Patent Application No. 10/
638,006 filed 08 Aug 2003, now U.S.
Patent 7,261,900 (HHS Reference No. E–
268–2002/0–US–02).
U.S. Patent Application No. 11/
831,860 filed 31 Jul 2007 (HHS
Reference No. E–268–2002/0–US–03).
Licensing Status: Available for
exclusive or nonexclusive licensing.
Licensing Contact: Peter A. Soukas,
J.D.; 301/435–4646;
soukasp@mail.nih.gov.
Methods for Preparing Bacillus
anthracis Protective Antigen for Use
in Vaccines
Description of Invention: This
invention relates to improved methods
of preparing Bacillus anthracis
protective antigen (PA) from a cell or
organism, particularly a recombinant
cell or microorganism, for use in
vaccines. Production and purification
methods of modified PA from a nonsporogenic strain of Bacillus anthracis
are described. Specifically, a scalable
fermentation and purification process is
claimed that is suitable for vaccine
development, and that produces almost
three times more product than earlierreported processes. This is
accomplished using a biologically
inactive protease-resistant PA variant in
a protease-deficient non-sporogenic
avirulent strain of B. anthracis (BH445).
One of the PA variants described in the
patent application lacks the furin and
chymotrypsin cleavage sites.
Advantages: Bacillus anthracis
protective antigen is a major component
of the currently licensed human vaccine
(Anthrax Vaccine Adsorbed, AVA).
Although the current human vaccine
has been shown to be effective against
cutaneous anthrax infection in animals
and humans and against inhalation
anthrax in rhesus monkeys, the licensed
vaccine has several limitations: (1) AVA
elicits a relatively high degree of local
and systemic adverse reactions,
probably mediated by variable amounts
of undefined bacterial products, making
standardization difficult; (2) the
immunization schedule requires
administration of six doses within an
eighteen (18) month period, followed by
annual boosters; (3) there is no defined
vaccine-induced protective level of
antibody to PA by which to evaluate
new lots of vaccines; and (4) AVA is
comprised of a wild-type PA. Thus a
vaccine comprising a modified purified
recombinant PA would be effective,
safe, allow precise standardization, and
require fewer injections.
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Federal Register / Vol. 73, No. 17 / Friday, January 25, 2008 / Notices
jlentini on PROD1PC65 with NOTICES
The invention also relates to PA
variants, and/or compositions thereof,
which are useful for eliciting an
immunogenic response in mammals,
particularly humans, including
responses that provide protection
against, or reduce the severity of,
infections caused by B. anthracis. The
vaccines claimed in this application are
intended for active immunization for
prevention of B. anthracis infection, and
for preparation of immune antibodies.
Application: Improved B. anthracis
vaccines.
Developmental Status: Phase I clinical
studies are being performed.
Inventors: Joseph Shiloach (NIDDK),
Stephen Leppla (NIDCR), Delia Ramirez
(NIDDK), Rachel Schneerson (NICHD),
John Robbins (NICHD).
Publication: DM Ramirez, et al.
Production, recovery and
immunogenicity of the protective
antigen from a recombinant strain of
Bacillus anthracis. J Ind Microbiol
Biotechnol. 2002 Apr;28(4):232–238.
Patent Status: U.S. Provisional
Application No. 60/344,505 filed 09
Nov 2001 (HHS Reference No. E–023–
2002/0–US–01); U.S. Patent Application
No. 10/290,712 filed 08 Nov 2002 (HHS
Reference No. E–023–2002/0–US–02).
Licensing Status: Available for
exclusive or nonexclusive licensing.
Licensing Contact: Peter A. Soukas,
J.D.; 301/435–4646;
soukasp@mail.nih.gov.
Collaborative Research Opportunity:
The National Institutes of Health is
seeking statements of capability or
interest from parties interested in
collaborative research to further
develop, evaluate, or commercialize
methods of preparing Bacillus anthracis
protective antigen (PA) from a cell or
organism, particularly a recombinant
cell or microorganism, for use in
vaccines. Please contact Rochelle S.
Blaustein, J.D., at 301/451–3636 or
Rochelle.Blaustein@nih.gov for
additional information.
Chimeric Gag Pseudovirions
Description of Technology: The
human immunodeficiency virus (HIV) is
the causative agent of acquired
immunodeficiency syndrome (AIDS).
The HIV virion basically consists of a
viral core and envelope. The core
consists predominantly of gag- and polencoded proteins and the viral RNA.
Expression of recombinant Gag
precursor proteins can lead to assembly
and budding of virus-like particles
(pseudovirions). The production of Gagbased pseudovirions in mammalian and
insect cell systems using recombinant
virus vectors provides a novel
technology for engineering recombinant
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protein-based particulate vaccines for
HIV and other viruses. The
incorporation of additional viral or
cellular, peptides and polypeptides may
be advantageous in vaccine
preparations, since they may contain
antigenic epitopes that may play a role
in inducing protection from infection or
disease.
The subject invention provides
chimeric nucleic acids comprising a
retroviral gag sequence, a target nucleic
acid sequence derived from a nucleic
acid encoding a fusion partner, and a
frame shift site. Expression of the
chimeric gene cassette results in
packaging the fusion partner into the
Gag pseudovirion. Suitable fusion
partners can be derived from any
protein of interest which has a
biological activity or which elicits a
cellular or humoral immune response.
Applications: HIV vaccines and/or
therapeutics.
Development Status: Early stage.
Inventors: Gregory J. Tobin (NCI/
SAIC), et al.
Patent Status: U.S. Patent No.
6,099,847 issued 08 Aug 2000 (HHS
Reference No. E–105–1996/1–US–01).
Licensing Status: Available for nonexclusive or exclusive licensing.
Licensing Contact: Susan Ano, PhD;
301/435–5515; anos@mail.nih.gov.
Dated: January 14, 2008.
Steven M. Ferguson,
Director, Division of Technology Development
and Transfer, Office of Technology Transfer,
National Institutes of Health.
[FR Doc. E8–1259 Filed 1–24–08; 8:45 am]
BILLING CODE 4140–01–P
DEPARTMENT OF HEALTH AND
HUMAN SERVICES
National Institutes of Health
Center for Scientific Review; Notice of
Closed Meeting
Pursuant to section 10(d) of the
Federal Advisory Committee Act, as
amended (5 U.S.C. Appendix 2), notice
is hereby given of the following
meetings.
The meetings will be closed to the
public in accordance with the
provisions set forth in sections
552b(c)(4) and 552b(c)(6), Title 5 U.S.C.,
as amended. The grant applications and
the discussions could disclose
confidential trade secrets or commercial
property such as patentable material,
and personal information concerning
individuals associated with the grant
applications, the disclosure of which
would constitute a clearly unwarranted
invasion of personal privacy.
PO 00000
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Name of Committee: Oncological Sciences
Integrated Review Group; Basic Mechanisms
of Cancer Therapeutics Study Section.
Date: January 28–29, 2008.
Time: 8 a.m. to 5 p.m.
Agenda: To review and evaluate grant
applications.
Place: Embassy Suites at the Chevy Chase
Pavilion, 4300 Military Road, NW.,
Washington, DC 20015.
Contact Person: Lambratu Rahman, PhD,
Scientific Review Officer, Center for
Scientific Review; National Institutes of
Health, 6701 Rockledge Drive, Room 6214,
MSC 7804, Bethesda, MD 20892, 301–451–
3493, rahmanl@csr.nih.gov.
This notice is being published less than 15
days prior to the meeting due to the timing
limitations imposed by the review and
funding cycle.
(Catalogue of Federal Domestic Assistance
Program Nos. 93.306, Comparative Medicine;
93.333, Clinical Research, 93.306, 93.333,
93.337, 93.393–93.396, 93.837–93.844,
93.846–93.878, 93.892, 93.893, National
Institutes of Health, (HHS)
Dated: January 16, 2008.
Jennifer Spaeth,
Director, Office of Federal Advisory
Committee Policy.
[FR Doc. 08–275 Filed 1–24–08; 8:45 am]
BILLING CODE 4140–01–M
DEPARTMENT OF HEALTH AND
HUMAN SERVICES
National Institutes of Health
Center for Scientific Review; Notice of
Closed Meetings
Pursuant to section 10(d) of the
Federal Advisory Committee Act, as
amended (5 U.S.C. Appendix 2), notice
is hereby given of the following
meetings.
The meetings will be closed to the
public in accordance with the
provisions set forth in sections
552b(c)(4) and 552b(c)(6), Title 5 U.S.C.,
as amended. The grant applications and
the discussions could disclose
confidential trade secrets or commercial
property such as patentable material,
and personal information concerning
individuals associated with the grant
applications, the disclosure of which
would constitute a clearly unwarranted
invasion of personal privacy.
Name of Committee: Center for Scientific
Review Special Emphasis Panel; Nutrition.
Date: January 31, 2008.
Time: 1 p.m. to 5 p.m.
Agenda: To review and evaluate grant
applications.
Place: National Institutes of Health, 6701
Rockledge Drive, Bethesda, MD 20892
(Telephone Conference Call).
Contact Person: Abubakar A. Shaikh, PhD,
DVM, Scientific Review Administrator,
Center for Scientific Review, National
E:\FR\FM\25JAN1.SGM
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]]>Agencies
[Federal Register Volume 73, Number 17 (Friday, January 25, 2008)]
[Notices]
[Pages 4606-4608]
From the Federal Register Online via the Government Printing Office [www.gpo.gov]
[FR Doc No: E8-1259]
-----------------------------------------------------------------------
DEPARTMENT OF HEALTH AND HUMAN SERVICES
National Institutes of Health
Government-Owned Inventions; Availability for Licensing
AGENCY: National Institutes of Health, Public Health Service, HHS.
ACTION: Notice.
-----------------------------------------------------------------------
SUMMARY: The inventions listed below are owned by an agency of the U.S.
Government and are available for licensing in the U.S. in accordance
with 35 U.S.C. 207 to achieve expeditious commercialization of results
of federally-funded research and development. Foreign patent
applications are filed on selected inventions to extend market coverage
for companies and may also be available for licensing.
ADDRESS: Licensing information and copies of the U.S. patent
applications listed below may be obtained by writing to the indicated
licensing contact at the Office of Technology Transfer, National
Institutes of Health, 6011 Executive Boulevard, Suite 325, Rockville,
Maryland 20852-3804; telephone: 301/496-7057; fax: 301/402-0220. A
signed Confidential Disclosure Agreement will be required to receive
copies of the patent applications.
3D Imaging of Mammalian Cells Using Focused Ion Beam-Secondary Ion Mass
Spectrometry (FIB-SIMS)
Description of Technology: Available for licensing and commercial
development is a new automated approach to cellular imaging that allows
3D visualization of cellular organelles and protein expression at
nanometer (nm) resolution using ion abrasion scanning electron
microscopy (IA-SEM). The approach uses established technologies for 3D
imaging [1, 2] by iterative use of a focused ion beam and scanning
electron beam combined with established technologies for mass
spectrometry. Strategies to explore the 3D distribution of cellular
components are being developed with the goal of establishing rapid
methods for determining protein, metabolite and drug localization in
the subcellular space.
Applications: Cytology; Oncology; Cell biology; Drug development;
Drug targeting.
Development Status: Pilot experiments are ongoing for the
development and optimization of the technology using commercially
available components. Clinical applications for the diagnosis of tissue
specimens are also being explored.
Inventor: Sriram Subramaniam (NCI).
Publications:
1. J Heymann, M Hayles, I Gestmann, L Giannuzzi, L Lich, S
Subramaniam. Site-specific 3D imaging of cells and tissues with a dual
beam microscope. J. Struct. Biol. 2006 Jul;155(1):63-73.
2. J Heymann, D Shi, S Kim, D Bliss, J Milne, S Subramaniam. 3D
imaging of melanoma cells using automated ``ion abrasion scanning
electron microscopy''. Microsc Microanal. 2007 Aug;13(Suppl 2):360-361,
doi 10.1017/S1431927607079287.
Patent Status: U.S. Provisional Application No. 60/970,070 filed 05
Sep 2007 (HHS Reference No. E-313-2007/0-US-01); U.S. Provisional
Application No. 60/974,686 filed 24 Sep 2007 (HHS Reference No. E-313-
2007/1-US-01).
Licensing Status: Available for exclusive or non-exclusive
licensing.
Licensing Contact: Michael A. Shmilovich, Esq.; 301/435-5019;
shmilovm@mail.nih.gov.
Collaborative Research Opportunity: The National Cancer Institute
is seeking statements of capability or interest from parties interested
in collaborative research and/or partnership agreements to further
develop and commercialize tools for 3D mapping cells and tissues at
nanometer resolution. Please contact
[[Page 4607]]
John D. Hewes, Ph.D. at 301-435-3121 or hewesj@mail.nih.gov for more
information.
A Drug Index to Quantify Harmful Drug Exposure in Older Adults
Description of Technology: Polypharmacy is the simultaneous use of
multiple drugs. It is prevalent in individuals ages 65 and older who
carry a high burden of illness and take various medications for
treatment. Reducing the incidence of polypharmacy in older people
presents a major challenge for healthcare professionals. NIH scientists
have discovered a novel method to assess polypharmacy for which
physicians can use to evaluate drug response of patients more
effectively and determine better therapeutic regimens for the patient.
This method calculates the total drug burden (TDB) index associated
with anticholinergic and sedative drugs, using the equation, TDB =
BAC + BS. Further, this invention could be
implemented into a portable computing device, such as personal digital
assistant (PDA).
Applications: Useful for physicians to help reduce prescribing
errors, lower the incidence of adverse drug reactions and improve
medical outcomes in older patients.
Market:
Seven percent (7%) of the elderly are under polypharmacy and
purchase over 30% of prescription drugs and 40% of over-the-counter
(OTC) drugs.
Medication misuse costs the health care system over $177 billion
dollars and results in more than 200,000 deaths each year.
Development Status: Early stage.
Inventors: Darrell R. Abernethy (NIA), et al.
Patent Status: International Application No. PCT/US06/44718 filed
17 Nov 2006 (HHS Reference No. E-241-2006/0-PCT-01)
Licensing Status: Available for licensing.
Licensing Contact: Rung C. Tang, J.D.; 301/435-5031;
tangrc@mail.nih.gov.
Recombinant Modified Bacillus anthracis Protective Antigen for Use in
Vaccines
Description of Invention: This invention relates to improved
methods of preparing Bacillus anthracis protective antigen (PA) for use
in vaccines. PA is a secreted, non-toxic protein with a molecular
weight of 83 KDa. PA is a major component of the currently licensed
human vaccine (Anthrax Vaccine Adsorbed, AVA). Although the licensed
human vaccine has been shown to be effective against cutaneous anthrax
infection in animals and humans and against inhalation anthrax in
rhesus monkeys, the licensed vaccine has several limitations: (1) AVA
elicits a relatively high degree of local and systemic adverse
reactions, probably mediated by variable amounts of undefined bacterial
products, making standardization difficult; (2) the immunization
schedule requires administration of six doses within an eighteen (18)
month period, followed by annual boosters; (3) there is no defined
vaccine-induced protective level of antibody to PA by which to evaluate
new lots of vaccines; and (4) AVA is comprised of a wild-type PA. It
has been suggested that a vaccine comprising a modified purified
recombinant PA would be effective, safe, allow precise standardization,
and require fewer injections.
This invention claims methods of producing and recovering PA from a
cell or organism, particularly a recombinant cell or microorganism. The
invention claims production and purification of modified PA from a non-
sporogenic strain of Bacillus anthracis. In contrast to other
previously described methods, greater quantities of PA are obtainable
from these cells or microorganisms. Specifically, a scalable
fermentation and purification process is claimed that is suitable for
vaccine development, and that produces almost three times more product
than earlier-reported processes. This is accomplished using a
biologically inactive protease-resistant PA variant in a protease-
deficient non-sporogenic avirulent strain of B. anthracis (BH445). One
of the PA variants described in the patent application lacks the furin
and chymotrypsin cleavage sites.
The invention relates to improved methods of producing and
recovering sporulation-deficient B. anthracis mutant stains, and for
producing and recovering recombinant B. anthracis protective antigen
(PA), especially modified PA which is protease resistant, and to
methods of using of these PAs or nucleic acids encoding these PAs for
eliciting an immunogenic response in humans, including responses which
provide protection against, or reduce the severity of, B. anthracis
bacterial infections and which are useful to prevent and/or treat
illnesses caused by B. anthracis, such as inhalation anthrax, cutaneous
anthrax and gastrointestinal anthrax.
Application: Improved B. anthracis vaccines.
Developmental Status: Phase I clinical studies are being performed.
Inventors: Stephen Leppla (NIDCR), M. J. Rosovitz (NIDCR), John
Robbins (NICHD), Rachel Schneerson (NICHD)
Patent Status:
U.S. Provisional Application No. 60/402,285 filed 09 Aug 2002 (HHS
Reference No. E-268-2002/0-US-01).
U.S. Patent Application No. 10/638,006 filed 08 Aug 2003, now U.S.
Patent 7,261,900 (HHS Reference No. E-268-2002/0-US-02).
U.S. Patent Application No. 11/831,860 filed 31 Jul 2007 (HHS
Reference No. E-268-2002/0-US-03).
Licensing Status: Available for exclusive or nonexclusive
licensing.
Licensing Contact: Peter A. Soukas, J.D.; 301/435-4646;
soukasp@mail.nih.gov.
Methods for Preparing Bacillus anthracis Protective Antigen for Use in
Vaccines
Description of Invention: This invention relates to improved
methods of preparing Bacillus anthracis protective antigen (PA) from a
cell or organism, particularly a recombinant cell or microorganism, for
use in vaccines. Production and purification methods of modified PA
from a non-sporogenic strain of Bacillus anthracis are described.
Specifically, a scalable fermentation and purification process is
claimed that is suitable for vaccine development, and that produces
almost three times more product than earlier-reported processes. This
is accomplished using a biologically inactive protease-resistant PA
variant in a protease-deficient non-sporogenic avirulent strain of B.
anthracis (BH445). One of the PA variants described in the patent
application lacks the furin and chymotrypsin cleavage sites.
Advantages: Bacillus anthracis protective antigen is a major
component of the currently licensed human vaccine (Anthrax Vaccine
Adsorbed, AVA). Although the current human vaccine has been shown to be
effective against cutaneous anthrax infection in animals and humans and
against inhalation anthrax in rhesus monkeys, the licensed vaccine has
several limitations: (1) AVA elicits a relatively high degree of local
and systemic adverse reactions, probably mediated by variable amounts
of undefined bacterial products, making standardization difficult; (2)
the immunization schedule requires administration of six doses within
an eighteen (18) month period, followed by annual boosters; (3) there
is no defined vaccine-induced protective level of antibody to PA by
which to evaluate new lots of vaccines; and (4) AVA is comprised of a
wild-type PA. Thus a vaccine comprising a modified purified recombinant
PA would be effective, safe, allow precise standardization, and require
fewer injections.
[[Page 4608]]
The invention also relates to PA variants, and/or compositions
thereof, which are useful for eliciting an immunogenic response in
mammals, particularly humans, including responses that provide
protection against, or reduce the severity of, infections caused by B.
anthracis. The vaccines claimed in this application are intended for
active immunization for prevention of B. anthracis infection, and for
preparation of immune antibodies.
Application: Improved B. anthracis vaccines.
Developmental Status: Phase I clinical studies are being performed.
Inventors: Joseph Shiloach (NIDDK), Stephen Leppla (NIDCR), Delia
Ramirez (NIDDK), Rachel Schneerson (NICHD), John Robbins (NICHD).
Publication: DM Ramirez, et al. Production, recovery and
immunogenicity of the protective antigen from a recombinant strain of
Bacillus anthracis. J Ind Microbiol Biotechnol. 2002 Apr;28(4):232-238.
Patent Status: U.S. Provisional Application No. 60/344,505 filed 09
Nov 2001 (HHS Reference No. E-023-2002/0-US-01); U.S. Patent
Application No. 10/290,712 filed 08 Nov 2002 (HHS Reference No. E-023-
2002/0-US-02).
Licensing Status: Available for exclusive or nonexclusive
licensing.
Licensing Contact: Peter A. Soukas, J.D.; 301/435-4646;
soukasp@mail.nih.gov.
Collaborative Research Opportunity: The National Institutes of
Health is seeking statements of capability or interest from parties
interested in collaborative research to further develop, evaluate, or
commercialize methods of preparing Bacillus anthracis protective
antigen (PA) from a cell or organism, particularly a recombinant cell
or microorganism, for use in vaccines. Please contact Rochelle S.
Blaustein, J.D., at 301/451-3636 or Rochelle.Blaustein@nih.gov for
additional information.
Chimeric Gag Pseudovirions
Description of Technology: The human immunodeficiency virus (HIV)
is the causative agent of acquired immunodeficiency syndrome (AIDS).
The HIV virion basically consists of a viral core and envelope. The
core consists predominantly of gag- and pol-encoded proteins and the
viral RNA. Expression of recombinant Gag precursor proteins can lead to
assembly and budding of virus-like particles (pseudovirions). The
production of Gag-based pseudovirions in mammalian and insect cell
systems using recombinant virus vectors provides a novel technology for
engineering recombinant protein-based particulate vaccines for HIV and
other viruses. The incorporation of additional viral or cellular,
peptides and polypeptides may be advantageous in vaccine preparations,
since they may contain antigenic epitopes that may play a role in
inducing protection from infection or disease.
The subject invention provides chimeric nucleic acids comprising a
retroviral gag sequence, a target nucleic acid sequence derived from a
nucleic acid encoding a fusion partner, and a frame shift site.
Expression of the chimeric gene cassette results in packaging the
fusion partner into the Gag pseudovirion. Suitable fusion partners can
be derived from any protein of interest which has a biological activity
or which elicits a cellular or humoral immune response.
Applications: HIV vaccines and/or therapeutics.
Development Status: Early stage.
Inventors: Gregory J. Tobin (NCI/SAIC), et al.
Patent Status: U.S. Patent No. 6,099,847 issued 08 Aug 2000 (HHS
Reference No. E-105-1996/1-US-01).
Licensing Status: Available for non-exclusive or exclusive
licensing.
Licensing Contact: Susan Ano, PhD; 301/435-5515; anos@mail.nih.gov.
Dated: January 14, 2008.
Steven M. Ferguson,
Director, Division of Technology Development and Transfer, Office of
Technology Transfer, National Institutes of Health.
[FR Doc. E8-1259 Filed 1-24-08; 8:45 am]
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