Public Teleconference Regarding Licensing and Collaborative Research Opportunities for: “Brother of the Regulator of Imprinted Sites” (BORIS): A Novel Protein That Can Be Used for Diagnosis and as a Therapeutic Target for the Treatment of Several Cancers; Dr. Victor Lobanenkov et al. (NIAID), 65756 [E7-22820]
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65756
Federal Register / Vol. 72, No. 225 / Friday, November 23, 2007 / Notices
inhibitors. These NNRTIs are highly
specific for HIV–1 RT and do not inhibit
normal cellular polymerases, resulting
in lower cytotoxicity and fewer side
effects that the nucleoside analogues,
such as AZT. This novel class of
compounds could significantly improve
the treatment of HIV by increasing
compliance with therapy.
Inventors: Christopher A. Michejda,
Marshall Morningstar, Thomas Roth
(NCI).
Patent Status: U.S. Patent No.
6,369,235 issued 09 Apr 2002 (HHS
Reference No. E–076–1997/1–US–01);
U.S. Patent No. 6,894,068 issued 17 May
2005 (HHS Reference No. E–076–1997/
1–US–02).
Licensing Contact: Sally Hu, PhD.,
MBA; 301/435–5606; hus@mail.nih.gov.
Dated: November 9, 2007.
Steven M. Ferguson,
Director, Division of Technology Development
and Transfer, Office of Technology Transfer,
National Institutes of Health.
[FR Doc. E7–22821 Filed 11–21–07; 8:45 am]
BILLING CODE 4140–01–P
DEPARTMENT OF HEALTH AND
HUMAN SERVICES
National Institutes of Health
Public Teleconference Regarding
Licensing and Collaborative Research
Opportunities for: ‘‘Brother of the
Regulator of Imprinted Sites’’ (BORIS):
A Novel Protein That Can Be Used for
Diagnosis and as a Therapeutic Target
for the Treatment of Several Cancers;
Dr. Victor Lobanenkov et al. (NIAID)
National Institutes of Health,
Public Health Service, HHS.
ACTION: Notice.
AGENCY:
mstockstill on PROD1PC66 with NOTICES
Technology Summary
The technology describes the
discovery of a novel gene encoding the
DNA-binding factor, ‘‘Brother of the
Regulator of Imprinted Sites’’, BORIS,
related to the unique, evolutionarily
conserved, CTCF factor involved in
regulation of genomic imprinting and
cancer. Furthermore, it describes several
splice variants of BORIS that translate
into different proteins and antibodies of
BORIS that can be used for diagnosis
and treatment of cancer.
Technology Description
A very recent finding is that protein
CTCF (expressed in all somatic tissues)
binds, in a methylation-dependent
manner, to the imprinting control
regions thus allowing somatic cells to
distinguish functionally maternal from
paternal alleles. The new factor, BORIS,
VerDate Aug<31>2005
16:16 Nov 21, 2007
Jkt 214001
shares with CTCF the same spectrum of
DNA sequence specificity and it is
normally expressed only in germ cells of
human gonads (when patterns of gene
imprinting are re-established), but not in
CTCF-expressing somatic cells.
Additionally, since cell-growth
controlling CTCF has properties of a
tumor suppressor gene, abnormal
activation of BORIS upon cancerous
transformation of somatic cells results
in competition with the normal function
of CTCF, thereby promoting tumor
growth. The inventors found that
antibodies against BORIS are present
and can be detected in human blood
serum taken from patients with cancer
but not from healthy donors.
Additionally, 14 new alternative splice
forms of the BORIS polypeptide have
been identified which show specificity
to specific cancers, suggesting that
circulating antibodies for specific
BORIS splice variants in cancer patients
can be associated with specific types or
stages of malignant tumors.
Therefore, BORIS can be used in both
diagnostic and therapeutic arenas: First,
mutations in BORIS genomic locus or
detection of encoded by the BORIS
locus mRNAs or polypeptides expressed
in any tissue besides normal gonads
may be indicative of a pre-cancerous or
cancerous state thus serving a diagnostic
and/or prognostic purpose; and, second,
targeting of abnormally activated BORIS
should serve as a novel therapeutic
approach to treat cancer.
BORIS Technology Can Have Three
Major Applications
1. BORIS can be used as a therapeutic
target for anti-cancer treatments.
2. BORIS expression can serve as a
diagnostic marker for specific cancers
other than testis.
3. Detection of antibodies against
BORIS in blood serum samples can also
be used as an indicator of pre-cancerous
or cancerous condition existing.
Competitive Advantage of Our
Technology
Cancer/testis (CT) genes,
predominantly expressed in the testis
(germ cells) and generally not in other
normal tissues, are aberrantly expressed
in human cancers. This highly restricted
expression provides a unique
opportunity to use these CT genes for
diagnostics, immunotherapeutic, or
other targeted therapies. BORIS is a
newly described CT gene shown to be
expressed in several cancers including
lung, brain, uterine and endometrial
among others and thus can be used as
a novel diagnostic and therapeutic
target.
PO 00000
Frm 00059
Fmt 4703
Sfmt 4703
Patent Estate
This technology consists of the
following patents and patent
applications:
1. U.S. Patent Application No. 10/
505,377 filed October 20, 2004 and all
foreign counterparts [E–227–2001/0–
US–03];
2. U.S. Patent Application No. 11/
575,732 filed March 21, 2007 and all
foreign counterparts [E–241–2004/0–
US–04]; and
3. PCT Application No. PCT/US2007/
7728 filed August 30, 2007 [E–117–
2006/0–PCT–02]
Next Step: Teleconference
There will be a teleconference where
the principal investigator will explain
this technology. Licensing and
collaborative research opportunities will
also be discussed. If you are interested
in participating in this teleconference
please call or e-mail Mojdeh Bahar;
(301) 435–2950; baharm@mail.nih.gov.
OTT will then e-mail you the date, time
and number for the teleconference.
Dated: November 9, 2007.
Steven M. Ferguson,
Director, Division of Technology Development
and Transfer, Office of Technology Transfer,
National Institutes of Health.
[FR Doc. E7–22820 Filed 11–21–07; 8:45 am]
BILLING CODE 4140–01–P
DEPARTMENT OF HEALTH AND
HUMAN SERVICES
National Institutes of Health
National Institute of Environmental
Health Sciences; 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
meeting.
The meeting 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: National Institute of
Environmental Health Sciences Special
Emphasis Panel, Genetic Environmental
Training.
Date: November 27, 2007.
Time: 8:30 a.m. to 5 p.m.
E:\FR\FM\23NON1.SGM
23NON1
]]>Agencies
[Federal Register Volume 72, Number 225 (Friday, November 23, 2007)]
[Notices]
[Page 65756]
From the Federal Register Online via the Government Printing Office [www.gpo.gov]
[FR Doc No: E7-22820]
-----------------------------------------------------------------------
DEPARTMENT OF HEALTH AND HUMAN SERVICES
National Institutes of Health
Public Teleconference Regarding Licensing and Collaborative
Research Opportunities for: ``Brother of the Regulator of Imprinted
Sites'' (BORIS): A Novel Protein That Can Be Used for Diagnosis and as
a Therapeutic Target for the Treatment of Several Cancers; Dr. Victor
Lobanenkov et al. (NIAID)
AGENCY: National Institutes of Health, Public Health Service, HHS.
ACTION: Notice.
-----------------------------------------------------------------------
Technology Summary
The technology describes the discovery of a novel gene encoding the
DNA-binding factor, ``Brother of the Regulator of Imprinted Sites'',
BORIS, related to the unique, evolutionarily conserved, CTCF factor
involved in regulation of genomic imprinting and cancer. Furthermore,
it describes several splice variants of BORIS that translate into
different proteins and antibodies of BORIS that can be used for
diagnosis and treatment of cancer.
Technology Description
A very recent finding is that protein CTCF (expressed in all
somatic tissues) binds, in a methylation-dependent manner, to the
imprinting control regions thus allowing somatic cells to distinguish
functionally maternal from paternal alleles. The new factor, BORIS,
shares with CTCF the same spectrum of DNA sequence specificity and it
is normally expressed only in germ cells of human gonads (when patterns
of gene imprinting are re-established), but not in CTCF-expressing
somatic cells.
Additionally, since cell-growth controlling CTCF has properties of
a tumor suppressor gene, abnormal activation of BORIS upon cancerous
transformation of somatic cells results in competition with the normal
function of CTCF, thereby promoting tumor growth. The inventors found
that antibodies against BORIS are present and can be detected in human
blood serum taken from patients with cancer but not from healthy
donors. Additionally, 14 new alternative splice forms of the BORIS
polypeptide have been identified which show specificity to specific
cancers, suggesting that circulating antibodies for specific BORIS
splice variants in cancer patients can be associated with specific
types or stages of malignant tumors.
Therefore, BORIS can be used in both diagnostic and therapeutic
arenas: First, mutations in BORIS genomic locus or detection of encoded
by the BORIS locus mRNAs or polypeptides expressed in any tissue
besides normal gonads may be indicative of a pre-cancerous or cancerous
state thus serving a diagnostic and/or prognostic purpose; and, second,
targeting of abnormally activated BORIS should serve as a novel
therapeutic approach to treat cancer.
BORIS Technology Can Have Three Major Applications
1. BORIS can be used as a therapeutic target for anti-cancer
treatments.
2. BORIS expression can serve as a diagnostic marker for specific
cancers other than testis.
3. Detection of antibodies against BORIS in blood serum samples can
also be used as an indicator of pre-cancerous or cancerous condition
existing.
Competitive Advantage of Our Technology
Cancer/testis (CT) genes, predominantly expressed in the testis
(germ cells) and generally not in other normal tissues, are aberrantly
expressed in human cancers. This highly restricted expression provides
a unique opportunity to use these CT genes for diagnostics,
immunotherapeutic, or other targeted therapies. BORIS is a newly
described CT gene shown to be expressed in several cancers including
lung, brain, uterine and endometrial among others and thus can be used
as a novel diagnostic and therapeutic target.
Patent Estate
This technology consists of the following patents and patent
applications:
1. U.S. Patent Application No. 10/505,377 filed October 20, 2004
and all foreign counterparts [E-227-2001/0-US-03];
2. U.S. Patent Application No. 11/575,732 filed March 21, 2007 and
all foreign counterparts [E-241-2004/0-US-04]; and
3. PCT Application No. PCT/US2007/7728 filed August 30, 2007 [E-
117-2006/0-PCT-02]
Next Step: Teleconference
There will be a teleconference where the principal investigator
will explain this technology. Licensing and collaborative research
opportunities will also be discussed. If you are interested in
participating in this teleconference please call or e-mail Mojdeh
Bahar; (301) 435-2950; baharm@mail.nih.gov. OTT will then e-mail you
the date, time and number for the teleconference.
Dated: November 9, 2007.
Steven M. Ferguson,
Director, Division of Technology Development and Transfer, Office of
Technology Transfer, National Institutes of Health.
[FR Doc. E7-22820 Filed 11-21-07; 8:45 am]
BILLING CODE 4140-01-P
