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Potentiating Antibody Therapy by Targeting Complement Deposited on Cancer Cells
Monoclonal antibodies (mAbs) have become a mainstay of therapy for many cancers. However, antibody therapy is not completely effective in some applications due to loss of the target surface antigen on cancer cells. Such mAb-induced “escape variants” are no longer sensitive to the therapeutic mAb therapy. It was observed that the escape variants carried...
Published: 7/25/2024
|
Inventor(s):
Martin Skarzynski
,
Margaret Lindorfer
,
Ronald Taylor
,
Christoph Rader
,
Berengere Vire
,
Erika Gaglione
,
Haiyong Peng
,
Sivasubramanian Baskar
,
Adrian Wiestner
Keywords(s):
2JXXXX
,
4GXXXX
,
5OXXXX
,
ANTIBODY
,
C3
,
C3d
,
CANCER
,
CB1XXX
,
Cell
,
Cells
,
Complement
,
Deposited
,
Listed LPM Vathyam as of 4/15/2015
,
Patent Category - Biotechnology
,
Post LPM Assignment Set 20150420
,
Potentiating
,
Pre LPM working set 20150418
,
Protein
,
Surface
,
Targeting
,
THERAPY
,
THEROF
,
VCXXXX
Category(s):
Collaboration Sought > Licensing
,
Application > Therapeutics
,
TherapeuticArea > Oncology
,
TherapeuticArea > Immunology
Human and Veterinary Cancer Therapeutic Agent Utilizing Anthrax Toxin-Based Technology
Due to the disorganized nature of blood vessels that run through tumors, chemotherapeutic agents often fail to penetrate tumors and kill cancer cells at the tumor’s center. This can lead to ineffective chemotherapeutic treatments, because tumors can quickly grow back if the entire tumor is not destroyed. NIH researchers have developed a therapeutic...
Published: 7/25/2024
|
Inventor(s):
Christopher Bachran
,
Stephen Leppla
Keywords(s):
Anthrax
,
AnthraxToxins
,
CB1BXX
,
CB1XXX
,
CB3CXX
,
CB3XXX
,
CBXXXX
,
CXXXXX
,
fusion proteins
,
Patent Category - Biotechnology
,
THERAPY
,
toxin
,
tumor
Category(s):
Collaboration Sought > Collaboration
,
TherapeuticArea > Oncology
,
TherapeuticArea > Immunology
,
Application > Therapeutics
Engineered Anthrax Toxin Variants that Target Cancer
This technology describes the use of novel mutated anthrax protective antigen (PA) protein variants to target tumor cells and tumor vasculature. NIH scientists have engineered two PA variants that selectively complement one another and combine to form active octamers that target tumor cells. This controlled oligomeric activation of the PA proteins...
Published: 7/25/2024
|
Inventor(s):
Stephen Leppla
,
Damilola Phillips
,
Clinton Leysath
Keywords(s):
Anthrax
,
ANTIGEN
,
CB1BXX
,
CB1XXX
,
CBXXXX
,
COMPLEMENTARY
,
CXXXXX
,
ENGINEERED
,
exclusively
,
FORM
,
Octamers
,
Protective
,
That
,
toxin
,
VARIANTS
Category(s):
Collaboration Sought > Collaboration
,
TherapeuticArea > Oncology
,
Application > Therapeutics
,
TherapeuticArea > Immunology
Human and Veterinary Cancer Therapeutic Agent Utilizing Anthrax Toxin-Based Technology
Due to the disorganized nature of blood vessels that run through tumors, chemotherapeutic agents often fail to penetrate tumors and kill cancer cells at the tumor’s center. This can lead to ineffective chemotherapeutic treatments, because tumors can quickly grow back if the entire tumor is not destroyed. NIH researchers have developed a therapeutic...
Published: 7/25/2024
|
Inventor(s):
Stephen Leppla
,
Shihui Liu
,
Thomas Bugge
,
Diane Peters
,
Jie Liu
,
Alexander Wein
,
Kuang-Hua Chen
,
Christopher Bachran
,
Damilola Phillips
,
Henning Hansen
,
Sarah Arnett
,
Clinton Leysath
Keywords(s):
Against
,
AMOUNTS
,
Anthrax
,
AnthraxToxins
,
ANTIGEN
,
B
,
CA1BXX
,
CB1AXX
,
CB1BXX
,
CB1XXX
,
CB3CXX
,
CBXXXX
,
Cells
,
Cell-Surface
,
CMG2
,
COMPLEMENTARY
,
CONTAIN
,
Containing
,
CXXXXX
,
Cytolethal
,
Distending
,
EFFICACY
,
Efficient
,
ENGINEERED
,
exclusively
,
Exploiting
,
FELINE
,
FELINE Leukemia
,
FORM
,
Fusion
,
fusion proteins
,
Having
,
High
,
IC2-PA
,
Identifying
,
Improved
,
Leppla
,
Listed LPM McCue as of 4/15/2015
,
MARKER
,
Metallo...
,
MULTIMERIC
,
Mutated
,
Nature
,
Octamers
,
Patent Category - Biotechnology
,
Post LPM Assignment Set 20150420
,
Pre LPM working set 20150418
,
Protective
,
Protein
,
proteins
,
SOLID
,
SPECIFICALLY
,
Specificity
,
Strong
,
TARGET
,
Targeting
,
That
,
THERAPY
,
toxin
,
TOXINS
,
tumor
,
Types
,
UAXXXX
,
VARIANTS
,
VASCULATURE
,
VETERINARY
Category(s):
Collaboration Sought > Collaboration
,
Application > Therapeutics
,
TherapeuticArea > Oncology
,
TherapeuticArea > Immunology
,
Application > Diagnostics
,
TherapeuticArea > Rare / Neglected Diseases
A Fold-Back Diabody Format for Diphtheria Toxin-Based Immunotoxins That Can Increase Binding and Potency
NIH inventors, in collaboration with Scott and White Memorial Hospital inventors, have developed new immunotoxins comprising a mutant diphtheria toxin linked to an anti-prostate specific membrane antigen (PSMA) fold-back diabody. The fold-back diabody construct has a shortened linker region between the heavy and light chains of the antibody variable...
Published: 7/25/2024
|
Inventor(s):
David Neville
Keywords(s):
A-dmDT390scfbDb591
,
Anti-prostratic
,
APPLICATION
,
Based
,
BINDING
,
CANCER
,
CB1AXX
,
CB1BXX
,
CB1CXX
,
CB1XXX
,
CBXXXX
,
CXXXXX
,
Diabody
,
DIPHTHERIA
,
Diptheria
,
Fold-back
,
FORMAT
,
Immunotoxin
,
IMMUNOTOXINS
,
INCREASE
,
particular
,
Potentcy
,
That
,
toxin
Category(s):
Collaboration Sought > Collaboration
,
TherapeuticArea > Oncology
,
TherapeuticArea > Immunology
,
Application > Therapeutics
Methods of Inducing Immune Tolerance Using Immunotoxins
The invention concerns immunotoxins and methods of using the immunotoxins for the treatment of rejection response in a patient, including graft-versus-host disease and transplantation of organs, tissues and cells into a host. In a specific embodiment of the invention, the transplant involves pancreatic islet cells. The immunotoxins are targeted via...
Published: 7/25/2024
|
Inventor(s):
David Neville
Keywords(s):
Activity
,
Agents
,
CB1XXX
,
CBXXXX
,
Cell
,
COMBINED
,
CXXXXX
,
Dendritic
,
Graft versus host disease
,
IB3XXX
,
IBXXXX
,
IMMUNE
,
Immunotoxin
,
IMMUNOTOXINS
,
Induce
,
INDUCING
,
INHIBIT
,
IN-VIVO
,
ISLET
,
IXXXXX
,
Maturation
,
Methds
,
Method
,
Methods
,
Novel
,
Pancreatic
,
RELATED
,
SUPPRESSANT
,
T
,
That
,
TOLERANCE
,
TRANSPLANTATION
Category(s):
Collaboration Sought > Licensing
,
TherapeuticArea > Immunology
,
Application > Research Materials
,
Application > Diagnostics
,
TherapeuticArea > Oncology
,
Application > Therapeutics
Immunotoxin with in-vivo T cell Suppressant Activity
The invention concerns immunotoxins and methods of using the immunotoxins for the treatment of autoimmune diseases and T cell malignancies. The immunotoxins are targeted via an antibody that is specific to T cells. This allows the specific ablation of malignant T cells and resting T cells. The transient ablation of resting T cells can "reset" the...
Published: 7/25/2024
|
Inventor(s):
David Neville
Keywords(s):
Activity
,
Aplastic anemia
,
CB1XXX
,
CBXXXX
,
Cell
,
CXXXXX
,
IB3XXX
,
IBXXXX
,
IMMUNE
,
Immunotoxin
,
IMMUNOTOXINS
,
INDUCING
,
IN-VIVO
,
IXXXXX
,
lymphoma
,
Methods
,
Novel
,
SUPPRESSANT
,
T
,
TOLERANCE
,
UAXXXX
,
Vivo
Category(s):
Collaboration Sought > Licensing
,
TherapeuticArea > Oncology
,
TherapeuticArea > Immunology
,
TherapeuticArea > Rare / Neglected Diseases
,
Application > Diagnostics
,
Application > Research Materials
,
Application > Therapeutics
Receptor-Mediated Uptake of an Extracellular Bcl-X
L
Fusion Protein Inhibits Apoptosis
The present invention relates to the field of apoptosis, in particular, it relates to apoptosis-modifying fusion proteins with at least two domains, one of which targets the fusion proteins to a target cell, and another of which modifies an apoptotic response of the target cell. For example, fusing various cell-binding domains to Bcl-XL and Bad allows...
Published: 4/8/2024
|
Inventor(s):
Richard Youle
Keywords(s):
Adult spinal muscular atrophy
,
Alzheimer disease 1
,
Alzheimer disease 3
,
Alzheimer disease 4
,
Alzheimer disease type 1
,
Alzheimer disease type 4
,
Alzheimer disease, familial, type 3
,
CB1XXX
,
CBXXXX
,
CXXXXX
,
Huntington disease
,
Huntington disease; Huntington's disease
,
Spinal muscular atrophy
,
Spinal Muscular Atrophy 1
,
Spinal muscular atrophy 4
,
Werdnig-Hoffmann disease
Category(s):
Collaboration Sought > Licensing
,
Application > Therapeutics
,
TherapeuticArea > Oncology
,
TherapeuticArea > Immunology
Retinoids Can Increase the Potency of Anti-Cancer Immunotoxins
A unique method of potentiating the effect of anti-cancer immunotoxins has been developed, thus offering to significantly improve the treatment of a number of cancers as well as autoimmune diseases. Prolonged treatment of human cancers with classical methods such as radiation and chemotherapy, or a combination of both, may cause greater damage than...
Published: 4/8/2024
|
Inventor(s):
You Wu
,
Richard Youle
Keywords(s):
BBXXXX
,
CB1XXX
,
CBXXXX
,
CXXXXX
Category(s):
Collaboration Sought > Licensing
,
TherapeuticArea > Immunology
,
TherapeuticArea > Oncology
,
Application > Therapeutics
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