Government-Owned Inventions; Availability for Licensing, 52887-52889 [E7-18189]
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52887
Federal Register / Vol. 72, No. 179 / Monday, September 17, 2007 / Notices
award to the school in the form of a
Federal Capital Contribution (FCC). The
award is used to establish a distinct
account for the NFLP loan fund at the
school or is deposited into an existing
NFLP fund. The school of nursing
makes loans from the NFLP fund to
eligible students enrolled full-time in a
master’s or doctoral nursing education
program that will prepare them to
become qualified nursing faculty.
Following graduation from the NFLP
lending school, loan recipients may
receive up to 85 percent NFLP loan
cancellation over a consecutive fouryear period in exchange for service as
full-time faculty at a school of nursing.
The NFLP lending school collects any
portion of the loan that is not cancelled.
The lending school deposits monies
from loan collection and repayment into
the NFLP loan fund to make additional
NFLP loans. The school of nursing must
keep records of all NFLP loan fund
transactions.
The NFLP Annual Operating Report is
used to collect information relating to
the NFLP loan fund operations and
financial activities for a specified
reporting period (July 1 through June 30
of the academic year). Participating
schools will complete and submit an
electronic copy of the AOR annually to
provide the Federal Government with
current and cumulative information on:
(1) The number and amount of loans
Number of
respondents
Form
Responses
per respondent
made, (2) the number of NFLP
recipients and graduates, (3) the number
and amount of loans collected, (4) the
number and amount of loans in
repayment, (5) the number of NFLP
graduates employed as nurse faculty,
and (6) NFLP loan fund receipts,
disbursements and other related costs.
The NFLP loan fund balance is used
with other criteria to determine the
annual award to the school.
Once the AOR is completed by the
participating school, the AOR will be
submitted electronically through the
HRSA Electronic Handbook.
The estimate of burden for this form
is as follows:
Total
responses
Hours per
responses
Total burden
hours
Nurse Faculty Loan Program Annual Operating Report
(AOR) ...............................................................................
150
1
150
8
1200
Total Burden .................................................................
150
1
150
8
1200
Written comments and
recommendations concerning the
proposed information collection should
be sent within 30 days of this notice to
the desk officer for HRSA, either by email to OIRA_submission@omb.eop.gov
or by fax to 202–395–6974. Please direct
all correspondence to the ‘‘attention of
the desk officer for HRSA.’’
Dated: September 10, 2007.
Alexandra Huttinger,
Acting Director, Division of Policy Review
and Coordination.
[FR Doc. E7–18223 Filed 9–14–07; 8:45 am]
BILLING CODE 4165–15–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.
jlentini on PROD1PC65 with NOTICES
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.
VerDate Aug<31>2005
17:00 Sep 14, 2007
Jkt 211001
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.
ADDRESSES:
Suppression of Allergic Asthma by
Ascaris Antigens
Description of Technology: Available
for licensing and commercial
development are compositions and
methods for suppressing allergic
reactions, as well as Th-1 and Th-2
associated immunological diseases, by
administering any of the two identified
Ascaris polypeptide antigens, or active
fragments or variants thereof, to the
affected subject.
Allergic asthma is characterized by
antigen-specific IgE production,
reversible airway hyper-reactivity and
eosinophilic infiltration of the airways.
There is a dramatic increase in the
prevalence of allergic disorders in
emerging and industrialized countries
and studies suggest that the hygienic
environment in those countries may not
provide allergy-protective mechanisms
associated with some forms of infection.
Recent studies have found that helminth
infection may suppress the development
of allergic disease. Helminth infections
currently affect over 2 billion people
PO 00000
Frm 00041
Fmt 4703
Sfmt 4703
worldwide, causing significant
morbidity. The most successful
geohelminths are members of the
Ascaris species, including A.
lumbricoides and A. suum, which are
known to infect 1.5 billion people. The
inventors studied the modulation of
allergic disease mediated by a chronic
A. suum infection in their murine model
of ragweed-induced allergic
conjunctivitis and allergic asthma, and
demonstrated that the infection prevents
allergic inflammation in sites distal
from larval migration. This protection
was due, in part, to the induction of
immunoregulatory cytokines such as IL–
10. In further studies, they
demonstrated that a cocktail of antigens
from the pseudocoelomic fluid (PCF) of
A. suum, administered during ragweed
sensitization, significantly reduced the
eosinophil migration into the
conjunctiva, pulmonary eosinophilic
inflammation, and total lung pathology
induced by the ragweed. PCF exposure
also reduced the secretion of the proallergic cytokines IL–5 and IL–13 in the
broncho-alveolar lavage fluid after
ragweed exposure. All findings suggest
PCF is capable of suppressing the
allergic response to a traditional
allergen and at multiple tissue sites.
In further studies, the inventors
determined that the protection
conferred by PCF to allergic
inflammation was through a specific
first antigenic protein isolated from
PCF, results that were confirmed by
using the recombinant form of the first
antigen.
E:\FR\FM\17SEN1.SGM
17SEN1
jlentini on PROD1PC65 with NOTICES
52888
Federal Register / Vol. 72, No. 179 / Monday, September 17, 2007 / Notices
Furthermore, it is known that Tolllike receptors (TLRs) on dendritic cells
(DCs) and other antigen presenting cells
recognize specific molecular patterns on
invading pathogens, leading to the
development of host immunity. A
number of pathogens, including
helminths, have used pattern
recognition by TLRs to modulate host
immunity and inflammation to establish
a chronic infection. In further studies,
the inventors identified a second
specific antigenic protein, also isolated
from PCF, which can modulate
activation of bone marrow derived DCs
in response to stimuli with bacterial
lipopolysaccharide (LPS); and to
stimulate DCs to produce significant
increases in IL–10 but not IL–12 upon
co-stimulation with LPS. Studies in
various genetically deficient mice
suggested that this second antigen
augments the IL–10 production
dependent on one of the TLRs, TLR4. In
further studies with the cloned and
expressed form of the second antigen, as
well as its two domains, the inventors
showed that the activity is dependent
on domain 2 but not domain 1. The
purified second antigen exhibits
different properties than unfractionated
PCF. PCF administration prevents an
initial response from occurring, as it
inhibits the initiation of the
inflammatory cascade. By contrast, the
second antigen can activate DCs and
alter cells such that they ultimately
suppress responses through the
production of IL–10 and can therefore
act on the effector phase of the
inflammatory response (i.e., modulate a
response that is already occurring).
Applications: Suppression of allergic
responses to traditional allergens by
administering the identified Ascaris
polypeptide antigens, or active
fragments or variants thereof, to the
affected subjects. The inventions
provide different ways to treat allergic
diseases or prevent allergic reactions,
rather than merely ameliorating the
symptoms. The inventions are also
applicable to other Th-1 and Th-2
associated immunological diseases.
Development Status: The technologies
are currently in the pre-clinical stage of
development.
Inventors: Andrea Keane-Myers et al.
(NIAID).
Relevant Publications: Manuscripts
describing the above technologies will
be available as soon as they are accepted
for publication.
Patent Status:
U.S. Provisional Application No. 60/
902,506 filed 22 February 2007 (HHS
Reference No. E–126–2007/0–US–01).
VerDate Aug<31>2005
17:00 Sep 14, 2007
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U.S. Provisional Application No. 60/
924,537 filed 18 May 2007 (HHS
Reference No. E–174–2007/0–US–01).
Licensing Status: Available for nonexclusive or exclusive licensing.
Licensing Contact: Cristina
Thalhammer-Reyero, Ph.D, MBA; 301/
435–4507; thalhamc@mail.nih.gov.
Citrobacter freundii WR7011 as a
Vaccine Strain or Source of Vi Capsular
Antigen for Protection Against Typhoid
Fever
Description of Invention: According to
the WHO, typhoid fever remains a
serious public health problem
throughout the world, with an estimated
16–33 million cases and 500,000 to
600,000 deaths annually. The Vi capsule
of S. typhi, the causative agent of
typhoid fever, is a surface-bound
carbohydrate polymer to which
antibodies have been shown to protect
against typhoid fever. Purification of
this polymer from virulent S. typhi
strains poses a danger to those handling
the live organisms. However, an
unusual strain of Citrobacter freundii,
WR7004 was mutated by the inventors
to create a strain (WR7011) that makes
Vi polysaccharide on its surface.
Specifically, the strain was mutated
using nitrosoguanidine. C. freundii
WR7011 makes several times as much
Vi polysaccharide as strains of S. typhi,
is nonpathogenic, and is much safer to
work with for Vi production or use as
a vaccine strain. The inventors
anticipate that this strain of C. freundii
will reduce costs of purifying the Vi
polysaccharide and also provide an
increased level of safety during
manufacture of the polysaccharide.
Applications and Modality: Synthesis
of S. typhi Vi polysaccharide.
Market: Research tool useful for
vaccine studies and/or vaccine
production.
Development Status: The technology
is a research tool.
Inventors: Dennis Kopecko and DeQi
Xu (CBER/FDA).
Pertinent References:
1. NJ Snellings et al. Genetic
regulation of variable Vi antigen
expression in a strain of Citrobacter
freundii. J Bacteriol. 1981
Feb;145(2):1010–1017.
2. H–S Houng et al. Expression of Vi
antigen in Escherichia coli K–12:
characterization of ViaB from
Citrobacter freundii and identity of
ViaA with RcsB. J Bacteriol. 1992
Sep;174(18):5910–5915.
3. JT Ou et al. Specific insertion and
deletion of insertion sequence 1-like
DNA element causes the reversible
expression of the virulent capsular
antigen Vi of Citrobacter freundii in
PO 00000
Frm 00042
Fmt 4703
Sfmt 4703
Escherichia coli. Proc Natl Sci USA.
1988 June;85(12):4402–4405.
4. SC Szu et al. Vi capsular
polysaccharide-protein conjugates for
prevention of typhoid fever. J Exp Med.
1987 Nov 1;166(5):1510–24.
Patent Status: HHS Reference No. E–
004–2007/0—Research Tool.
Licensing Status: This technology is
not patented. The mouse model will be
transferred through a Biological
Materials License.
Licensing Contact: Peter A. Soukas,
J.D.; 301/435–4646;
soukasp@mail.nih.gov.
Collaborative Research Opportunity:
The FDA–CBER Laboratory of Enteric
and Sexually Transmitted Diseases is
seeking statements of capability or
interest from parties interested in
collaborative research to further
develop, evaluate, or commercialize Vi
polysaccharide from Citrobacter
freundii. Please contact Dr. Dennis J.
Kopecko at 301–496–1893 or
(dennis.kopecko@fda.hhs.gov) for more
information.
Catalytic Domains of [beta](1,4)galactosyltransferase I Having Altered
Donor and Acceptor Specificities,
Domains That Promote In Vitro Protein
Folding, and Methods for Their Use
Description of Technology: [beta](1,4)galactosyltransferase I catalyzes the
transfer of galactose from the donor,
UDP-galactose, to an acceptor, Nacetylglucosamine, to form a galactose[beta](1,4)-N-acetylglucosamine bond.
This reaction allows galactose to be
linked to an N-acetylglucosamine that
may itself be linked to a variety of other
molecules. The reaction can be used to
make many types of molecules having
great biological significance. For
example, galactose-[beta](1,4)-Nacetylglucosamine linkages are very
important for cellular recognition and
binding events as well as cellular
interactions with pathogens, such as
viruses. Therefore, methods to
synthesize these types of bonds have
many applications in research and
medicine to develop pharmaceutical
agents and improved vaccines that can
be used to treat disease.
The present invention is based on the
surprising discovery that the enzymatic
activity of [beta](1,4)galactosyltransferase can be altered such
that the enzyme can make chemical
bonds that are very difficult to make by
other methods. These alterations
involve mutating the enzyme such that
the mutated enzyme can transfer many
different types of sugars from sugar
nucleotide donors to many different
types of acceptors. Therefore, the
mutated [beta](1,4)-
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Federal Register / Vol. 72, No. 179 / Monday, September 17, 2007 / Notices
jlentini on PROD1PC65 with NOTICES
galactosyltransferases of the invention
can be used to synthesize a variety of
products that, until now, have been very
difficult and expensive to produce.
The invention also provides amino
acid segments that promote the proper
folding of a galactosyltransferase
catalytic domain and mutations in the
catalytic domain that enhance folding
efficiency and make the enzyme stable
at room temperature. The amino acid
segments may be used to properly fold
the galactosyltransferase catalytic
domains of the invention and thereby
increase their activity. The amino acid
segments may also be used to increase
the activity of galactosyltransferases that
are produced recombinantly.
Accordingly, use of the amino acid
segments according to the invention
allows for production of [beta](1,4)galactosyltransferases having increased
enzymatic activity relative to [beta](1,4)galactosyltransferases produced in the
absence of the amino acid segments.
Applications: Synthesis of
polysaccharide antigens for conjugate
vaccines, glycosylation of monoclonal
antibodies, and as research tools.
Development Stage: The enzymes
have been synthesized and preclinical
studies have been performed.
Inventors: Pradman K. Qasba,
Boopathy Ramakrishnan, Elizabeth
Boeggeman (NCI).
Patent Status: U.S. and Foreign Rights
Available (HHS Reference No. E–230–
2002/2).
Licensing Status: Available for
exclusive or non-exclusive licensing.
Licensing Contact: Peter A. Soukas,
J.D.; 301/435–4646;
soukasp@mail.nih.gov.
Collaborative Research Opportunity:
The National Cancer Institute’s
Nanobiology Program is seeking
statements of capability or interest from
parties interested in collaborative
research to further develop, evaluate, or
commercialize the use of galactose and
modified galactose to be linked to an Nacetylglucosamine that may itself be
linked to a variety of other molecules.
Please contact John D. Hewes, PhD. at
301–435–3121 or hewesj@mail.nih.gov
for more information.
representation of the heart position.
RaMP tracks fast-moving blood volume
during systole as a marker for the heart
position, while suppressing stationary
or slow moving spins. This approach
allows cardiac navigation in two
orthogonal directions simultaneously,
eliminates the need to obtain empirical
correlations between the diaphragm and
the heart, and increases tracking
reliability among individual patients.
The method uses a spoiled-Fast Low
Angle Shot (FLASH) navigator and
incorporates an alternating pair of
bipolar velocity-encoding gradients.
Data at 1.5T indicate that RaMP is
capable of correcting bulk motion of the
heart over multiple cardiac cycles to
within +/¥1.43 mm in the superiorinferior direction and +/¥0.84 mm in
the anterior-posterior direction.
Applications:
Reduction of MR image artifacts due
to respiration motion.
Real-time tracking of cardiac motion.
Market: Magnetic Resonance Imaging.
Development Status: Late-stage
technology.
Inventors: Vinay M. Pai and Han Wen
(NHLBI).
Patent Status: U.S. Patent Application
No. 10/244,903 filed 16 Sep 2002 (HHS
Reference No. E–164–2002/0–US–01).
Licensing Status: Available for
exclusive or non-exclusive licensing.
Licensing Contact: Chekesha S.
Clingman, Ph.D.; 301/435–5018;
clingmac@mail.nih.gov.
Collaborative Research Opportunity:
The NHLBI is seeking statements of
capability or interest from parties
interested in collaborative research to
further develop, evaluate, or
commercialize this technology. Please
contact Lili Portilla at 301–594–4273 or
via e-mail at Lilip@nih.gov for more
information.
Rapid Motion Perception MRI
Navigator Method
Description of Technology: Available
for licensing and commercial
development is a non-breathhold flow
sensitive navigator technique for
reducing respiratory motion artifacts in
magnetic resonance (MR) images. The
method, called Rapid Motion Perception
(RaMP), tracks bulk translational motion
of the heart in real-time. The position of
the blood volume is a direct
DEPARTMENT OF HEALTH AND
HUMAN SERVICES
VerDate Aug<31>2005
17:00 Sep 14, 2007
Jkt 211001
Dated: September 7, 2007.
Steven M. Ferguson,
Director, Division of Technology Development
and Transfer, Office of Technology Transfer,
National Institutes of Health.
[FR Doc. E7–18189 Filed 9–14–07; 8:45 am]
BILLING CODE 4140–01–P
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.
PO 00000
Frm 00043
Fmt 4703
Sfmt 4703
52889
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.
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.
ADDRESSES:
New and Improved Chemotherapy
Adjuvants: Folate Based Inactivators of
O6-alkylguanine-DNA alkyltransferase
(alkyltransferase)
Description of Technology: O6Benzylguanine derivatives, some O6benzylpyrimidines, and related
compounds are known to be inactivators
of the human DNA repair protein O6alkylguanine-DNA alkyltransferase
(alkyltransferase). This repair protein is
the primary source of resistance many
tumor cells develop when exposed to
chemotherapeutic agents that modify
the O6-position of DNA guanine
residues. Therefore, inactivation of this
protein can bring about a significant
improvement in the therapeutic
effectiveness of these chemotherapy
drugs. The prototype inactivator O6benzylguanine is currently in clinical
trials in the United States as an adjuvant
in combination with the
chloroethylating agent 1, 3-bis (2chloroethyl)-1-nitrosourea (BCNU) and
the methylating agent temozolomide. A
similar alkyltransferase inactivator, O6(4-bromothenyl) guanine is in clinical
trials in the UK.
This technology is directed to the
discovery of a new class of potent
alkyltransferase inactivators, based on
folate ester derivatives of O6-benzyl-2′deoxyguanosine and of O6-[4(hydroxymethyl)benzyl] guanine. All
the folate ester derivatives of O6-benzyl2′-deoxyguanosine were able to
sensitize human tumor cells to killing
by 1, 3-bis (2-chloroethyl)-1-nitrosourea
with O6-benzyl-3′-O-[g-folyl]-2′deoxyguanosine being the most active.
The 3′ ester was found to be more potent
than the 5′ ester and was more than an
order of magnitude more active than O6-
E:\FR\FM\17SEN1.SGM
17SEN1
]]>Agencies
[Federal Register Volume 72, Number 179 (Monday, September 17, 2007)]
[Notices]
[Pages 52887-52889]
From the Federal Register Online via the Government Printing Office [www.gpo.gov]
[FR Doc No: E7-18189]
-----------------------------------------------------------------------
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.
ADDRESSES: 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.
Suppression of Allergic Asthma by Ascaris Antigens
Description of Technology: Available for licensing and commercial
development are compositions and methods for suppressing allergic
reactions, as well as Th-1 and Th-2 associated immunological diseases,
by administering any of the two identified Ascaris polypeptide
antigens, or active fragments or variants thereof, to the affected
subject.
Allergic asthma is characterized by antigen-specific IgE
production, reversible airway hyper-reactivity and eosinophilic
infiltration of the airways. There is a dramatic increase in the
prevalence of allergic disorders in emerging and industrialized
countries and studies suggest that the hygienic environment in those
countries may not provide allergy-protective mechanisms associated with
some forms of infection. Recent studies have found that helminth
infection may suppress the development of allergic disease. Helminth
infections currently affect over 2 billion people worldwide, causing
significant morbidity. The most successful geohelminths are members of
the Ascaris species, including A. lumbricoides and A. suum, which are
known to infect 1.5 billion people. The inventors studied the
modulation of allergic disease mediated by a chronic A. suum infection
in their murine model of ragweed-induced allergic conjunctivitis and
allergic asthma, and demonstrated that the infection prevents allergic
inflammation in sites distal from larval migration. This protection was
due, in part, to the induction of immunoregulatory cytokines such as
IL-10. In further studies, they demonstrated that a cocktail of
antigens from the pseudocoelomic fluid (PCF) of A. suum, administered
during ragweed sensitization, significantly reduced the eosinophil
migration into the conjunctiva, pulmonary eosinophilic inflammation,
and total lung pathology induced by the ragweed. PCF exposure also
reduced the secretion of the pro-allergic cytokines IL-5 and IL-13 in
the broncho-alveolar lavage fluid after ragweed exposure. All findings
suggest PCF is capable of suppressing the allergic response to a
traditional allergen and at multiple tissue sites.
In further studies, the inventors determined that the protection
conferred by PCF to allergic inflammation was through a specific first
antigenic protein isolated from PCF, results that were confirmed by
using the recombinant form of the first antigen.
[[Page 52888]]
Furthermore, it is known that Toll-like receptors (TLRs) on
dendritic cells (DCs) and other antigen presenting cells recognize
specific molecular patterns on invading pathogens, leading to the
development of host immunity. A number of pathogens, including
helminths, have used pattern recognition by TLRs to modulate host
immunity and inflammation to establish a chronic infection. In further
studies, the inventors identified a second specific antigenic protein,
also isolated from PCF, which can modulate activation of bone marrow
derived DCs in response to stimuli with bacterial lipopolysaccharide
(LPS); and to stimulate DCs to produce significant increases in IL-10
but not IL-12 upon co-stimulation with LPS. Studies in various
genetically deficient mice suggested that this second antigen augments
the IL-10 production dependent on one of the TLRs, TLR4. In further
studies with the cloned and expressed form of the second antigen, as
well as its two domains, the inventors showed that the activity is
dependent on domain 2 but not domain 1. The purified second antigen
exhibits different properties than unfractionated PCF. PCF
administration prevents an initial response from occurring, as it
inhibits the initiation of the inflammatory cascade. By contrast, the
second antigen can activate DCs and alter cells such that they
ultimately suppress responses through the production of IL-10 and can
therefore act on the effector phase of the inflammatory response (i.e.,
modulate a response that is already occurring).
Applications: Suppression of allergic responses to traditional
allergens by administering the identified Ascaris polypeptide antigens,
or active fragments or variants thereof, to the affected subjects. The
inventions provide different ways to treat allergic diseases or prevent
allergic reactions, rather than merely ameliorating the symptoms. The
inventions are also applicable to other Th-1 and Th-2 associated
immunological diseases.
Development Status: The technologies are currently in the pre-
clinical stage of development.
Inventors: Andrea Keane-Myers et al. (NIAID).
Relevant Publications: Manuscripts describing the above
technologies will be available as soon as they are accepted for
publication.
Patent Status:
U.S. Provisional Application No. 60/902,506 filed 22 February 2007
(HHS Reference No. E-126-2007/0-US-01).
U.S. Provisional Application No. 60/924,537 filed 18 May 2007 (HHS
Reference No. E-174-2007/0-US-01).
Licensing Status: Available for non-exclusive or exclusive
licensing.
Licensing Contact: Cristina Thalhammer-Reyero, Ph.D, MBA; 301/435-
4507; thalhamc@mail.nih.gov.
Citrobacter freundii WR7011 as a Vaccine Strain or Source of Vi
Capsular Antigen for Protection Against Typhoid Fever
Description of Invention: According to the WHO, typhoid fever
remains a serious public health problem throughout the world, with an
estimated 16-33 million cases and 500,000 to 600,000 deaths annually.
The Vi capsule of S. typhi, the causative agent of typhoid fever, is a
surface-bound carbohydrate polymer to which antibodies have been shown
to protect against typhoid fever. Purification of this polymer from
virulent S. typhi strains poses a danger to those handling the live
organisms. However, an unusual strain of Citrobacter freundii, WR7004
was mutated by the inventors to create a strain (WR7011) that makes Vi
polysaccharide on its surface. Specifically, the strain was mutated
using nitrosoguanidine. C. freundii WR7011 makes several times as much
Vi polysaccharide as strains of S. typhi, is nonpathogenic, and is much
safer to work with for Vi production or use as a vaccine strain. The
inventors anticipate that this strain of C. freundii will reduce costs
of purifying the Vi polysaccharide and also provide an increased level
of safety during manufacture of the polysaccharide.
Applications and Modality: Synthesis of S. typhi Vi polysaccharide.
Market: Research tool useful for vaccine studies and/or vaccine
production.
Development Status: The technology is a research tool.
Inventors: Dennis Kopecko and DeQi Xu (CBER/FDA).
Pertinent References:
1. NJ Snellings et al. Genetic regulation of variable Vi antigen
expression in a strain of Citrobacter freundii. J Bacteriol. 1981
Feb;145(2):1010-1017.
2. H-S Houng et al. Expression of Vi antigen in Escherichia coli K-
12: characterization of ViaB from Citrobacter freundii and identity of
ViaA with RcsB. J Bacteriol. 1992 Sep;174(18):5910-5915.
3. JT Ou et al. Specific insertion and deletion of insertion
sequence 1-like DNA element causes the reversible expression of the
virulent capsular antigen Vi of Citrobacter freundii in Escherichia
coli. Proc Natl Sci USA. 1988 June;85(12):4402-4405.
4. SC Szu et al. Vi capsular polysaccharide-protein conjugates for
prevention of typhoid fever. J Exp Med. 1987 Nov 1;166(5):1510-24.
Patent Status: HHS Reference No. E-004-2007/0--Research Tool.
Licensing Status: This technology is not patented. The mouse model
will be transferred through a Biological Materials License.
Licensing Contact: Peter A. Soukas, J.D.; 301/435-4646;
soukasp@mail.nih.gov.
Collaborative Research Opportunity: The FDA-CBER Laboratory of
Enteric and Sexually Transmitted Diseases is seeking statements of
capability or interest from parties interested in collaborative
research to further develop, evaluate, or commercialize Vi
polysaccharide from Citrobacter freundii. Please contact Dr. Dennis J.
Kopecko at 301-496-1893 or (dennis.kopecko@fda.hhs.gov) for more
information.
Catalytic Domains of [beta](1,4)-galactosyltransferase I Having Altered
Donor and Acceptor Specificities, Domains That Promote In Vitro Protein
Folding, and Methods for Their Use
Description of Technology: [beta](1,4)-galactosyltransferase I
catalyzes the transfer of galactose from the donor, UDP-galactose, to
an acceptor, N-acetylglucosamine, to form a galactose-[beta](1,4)-N-
acetylglucosamine bond. This reaction allows galactose to be linked to
an N-acetylglucosamine that may itself be linked to a variety of other
molecules. The reaction can be used to make many types of molecules
having great biological significance. For example, galactose-
[beta](1,4)-N-acetylglucosamine linkages are very important for
cellular recognition and binding events as well as cellular
interactions with pathogens, such as viruses. Therefore, methods to
synthesize these types of bonds have many applications in research and
medicine to develop pharmaceutical agents and improved vaccines that
can be used to treat disease.
The present invention is based on the surprising discovery that the
enzymatic activity of [beta](1,4)-galactosyltransferase can be altered
such that the enzyme can make chemical bonds that are very difficult to
make by other methods. These alterations involve mutating the enzyme
such that the mutated enzyme can transfer many different types of
sugars from sugar nucleotide donors to many different types of
acceptors. Therefore, the mutated [beta](1,4)-
[[Page 52889]]
galactosyltransferases of the invention can be used to synthesize a
variety of products that, until now, have been very difficult and
expensive to produce.
The invention also provides amino acid segments that promote the
proper folding of a galactosyltransferase catalytic domain and
mutations in the catalytic domain that enhance folding efficiency and
make the enzyme stable at room temperature. The amino acid segments may
be used to properly fold the galactosyltransferase catalytic domains of
the invention and thereby increase their activity. The amino acid
segments may also be used to increase the activity of
galactosyltransferases that are produced recombinantly. Accordingly,
use of the amino acid segments according to the invention allows for
production of [beta](1,4)-galactosyltransferases having increased
enzymatic activity relative to [beta](1,4)-galactosyltransferases
produced in the absence of the amino acid segments.
Applications: Synthesis of polysaccharide antigens for conjugate
vaccines, glycosylation of monoclonal antibodies, and as research
tools.
Development Stage: The enzymes have been synthesized and
preclinical studies have been performed.
Inventors: Pradman K. Qasba, Boopathy Ramakrishnan, Elizabeth
Boeggeman (NCI).
Patent Status: U.S. and Foreign Rights Available (HHS Reference No.
E-230-2002/2).
Licensing Status: Available for exclusive or non-exclusive
licensing.
Licensing Contact: Peter A. Soukas, J.D.; 301/435-4646;
soukasp@mail.nih.gov.
Collaborative Research Opportunity: The National Cancer Institute's
Nanobiology Program is seeking statements of capability or interest
from parties interested in collaborative research to further develop,
evaluate, or commercialize the use of galactose and modified galactose
to be linked to an N-acetylglucosamine that may itself be linked to a
variety of other molecules. Please contact John D. Hewes, PhD. at 301-
435-3121 or hewesj@mail.nih.gov for more information.
Rapid Motion Perception MRI Navigator Method
Description of Technology: Available for licensing and commercial
development is a non-breathhold flow sensitive navigator technique for
reducing respiratory motion artifacts in magnetic resonance (MR)
images. The method, called Rapid Motion Perception (RaMP), tracks bulk
translational motion of the heart in real-time. The position of the
blood volume is a direct representation of the heart position. RaMP
tracks fast-moving blood volume during systole as a marker for the
heart position, while suppressing stationary or slow moving spins. This
approach allows cardiac navigation in two orthogonal directions
simultaneously, eliminates the need to obtain empirical correlations
between the diaphragm and the heart, and increases tracking reliability
among individual patients. The method uses a spoiled-Fast Low Angle
Shot (FLASH) navigator and incorporates an alternating pair of bipolar
velocity-encoding gradients. Data at 1.5T indicate that RaMP is capable
of correcting bulk motion of the heart over multiple cardiac cycles to
within +/-1.43 mm in the superior-inferior direction and +/-0.84 mm in
the anterior-posterior direction.
Applications:
Reduction of MR image artifacts due to respiration motion.
Real-time tracking of cardiac motion.
Market: Magnetic Resonance Imaging.
Development Status: Late-stage technology.
Inventors: Vinay M. Pai and Han Wen (NHLBI).
Patent Status: U.S. Patent Application No. 10/244,903 filed 16 Sep
2002 (HHS Reference No. E-164-2002/0-US-01).
Licensing Status: Available for exclusive or non-exclusive
licensing.
Licensing Contact: Chekesha S. Clingman, Ph.D.; 301/435-5018;
clingmac@mail.nih.gov.
Collaborative Research Opportunity: The NHLBI is seeking statements
of capability or interest from parties interested in collaborative
research to further develop, evaluate, or commercialize this
technology. Please contact Lili Portilla at 301-594-4273 or via e-mail
at Lilip@nih.gov for more information.
Dated: September 7, 2007.
Steven M. Ferguson,
Director, Division of Technology Development and Transfer, Office of
Technology Transfer, National Institutes of Health.
[FR Doc. E7-18189 Filed 9-14-07; 8:45 am]
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