Abstract: SARS-CoV-2 vaccines are described herein. The SARS-CoV-2 vaccine antigens can be presented on a circular tandem repeat protein (cTRP) scaffold as trimers or tetramers. The vaccines can be used to treat and/or reduce the risk of SARS-CoV-2 infection and to treat and/or reduce the risk of side effects associated with SARS-CoV-2 infection, such as SARS-CoV-2-related symptoms, syndromes, and complications.

Abstract: The present disclosure provides compositions and uses thereof for treating a disease or disorder associated with CD20 expression. Treatments of this disclosure include use of a host cell expressing a fusion protein, such as an anti-CD20 CAR, optionally in combination with a CD20-specific binding molecule, a chemotherapeutic, an inhibitor of an immunosuppression component, or combinations thereof.

Abstract: Stem cells are modified to express an extracellular component including a tag cassette. The tag cassette can be used to detect, enrich, isolate, activate, track, deplete, or eliminate modified cells. The cells can be administered before or following differentiation into a more committed cell type.

Abstract: Methods to create barcoded influenza viruses without disrupting the function of the viral proteins and the proper packaging of the viral genome segments are described. The barcoded influenza viruses can be used within deep mutational scanning libraries to map influenza resistance mutations to therapeutic treatments. The libraries can also be used to predict influenza strains that may become resistant to therapeutic treatments and/or more easily evolve to infect new species. The libraries include features that allow efficient collection and assessment of informative data, obviating bottlenecks of previous approaches.

Abstract: Provided are methods, kits and compositions related to toxicity associated with administration of cell therapy for the treatment of diseases or conditions, e.g., cancer, including methods for use in predicting and treating a toxicity. In some embodiments, the toxicity is a neurotoxicity or cytokine release syndrome (CRS), such as a severe neurotoxicity or a severe CRS. The methods generally involve detecting a parameter of a biomarker or individually a parameter of each biomarker in a panel of biomarkers, such as a concentration, amount or activity, and comparing the detected parameter to a reference value for the parameter to determine if the subject is at risk for developing the toxicity, such as neurotoxicity or CRS or severe neurotoxicity or severe CRS.

Abstract: A method and an installation facility for assembling a plurality of floating wind turbines (12). The method comprising establishing an installation facility by arranging an installation vessel (1), having a crane (4), at a sheltered place, mooring a barge (2) next to said vessel (1). Further transporting a plurality of turbine blades (6), a plurality of tower sections (8) and a plurality of nacelles (10) to said installation facility, lifting of these parts onto said installation facility. Further towing a first floating wind turbine foundation (11 a) to said installation facility, erecting a tower (8a) on said first foundation (11 a) by assembling a set of said tower sections (8), installing a nacelle (10) on top of said tower (8a), installing a set of turbine blades (6) onto said nacelle (10) to make a completed wind turbine (12a), and finally towing said first wind turbine (12a) away.

Abstract: The present invention relates to a combination of sensors, a system and a method for monitoring incontinence and physiological parameters. The system includes a plurality of electrodes on an absorbent article including an absorbent core to be worn by a wearer being monitored, a device for electrical connection with the electrodes and for monitoring one or more electrical properties of the electrodes indicative of the occurrence of an incontinence event, an oxygen saturation sensor for monitoring the oxygen saturation of the blood of the wearer, and wherein the operation of the oxygen saturation sensor is controlled according to the body position of the wearer.

Abstract: Nanoparticle systems that genetically modify monocytes/macrophages in vivo to (1) recruit additional immune cells to a treatment site; (2) remain activated at the treatment site providing an on-going stimulatory signal to other immune cells; and (3) secrete bispecific immune-cell engaging antibodies that bind antigens on cells of interest at the treatment site and also bind and activate the recruited immune cells to destroy the bound cell. The systems can also inhibit the activity of transforming growth factor beta (TGF?).

Abstract: The use of luteinizing hormone receptor (LHR) binding agents and luteinizing hormone (LH) agonists to enrich for primitive hematopoietic stem cell (pHSC) populations, to target pHSC for ablation, and/or to expand pHSC populations are described. The methods can be used to prepare therapeutic hematopoietic stem cell (HSC) populations, to prepare patients for therapeutic HSC transplants, and/or to treat malignancies, such as those associated with hyperproliferative HSC.

Abstract: The current disclosure provides recombinant adenoviral vectors and adenoviral genomes that can accommodate or that contain a large transposon payload, for instance a transposon payload of up to 40 kb. The adenoviral vectors and genomes can deliver the large transposon payload into a target genome, for instance for gene therapy.

Abstract: Systems and methods to increase the efficacy of vaccines that require or are rendered more effective with T cell mediated immunity are described. The systems and methods utilize polynucleotides that genetically modify T cells to express a T cell receptor specific for an administered vaccine antigen.

Abstract: The present disclosure is based on the discovery that a clinical grade compound of Formula (I) potently blocks TGF-? activity and significantly reverse the activated phenotypes of myofibroblast in vitro. The compound of Formula (I) can be used in the treatment of fibrotic conditions in general, such as non-alcoholic steatohepatitis (NASH), cirrhosis, HBV infection, any liver disease, pulmonary fibrosis, interstitial lung disease, idiopathic pulmonary fibrosis (IPF), renal fibrosis, cardiac fibrosis, or any combination thereof.

Abstract: Humanized, chimeric, murine, and human antibody or antigen binding derivatives thereof that bind to an extracellular domain of interleukin-3 (IL-3) receptor ?-chain (CD123) anti-CD123 monoclonal antibodies are provided. Nucleic acids encoding the antibody or antigen binding derivative thereof that binds to an extracellular domain of interleukin-3 (IL-3) receptor ?-chain (CD123) and expression vectors comprising the nucleic acid are also provided. Bispecific affinity reagents comprising a first binding domain that specifically binds to an extracellular domain of interleukin-3 (IL-3) receptor ?-chain (CD123); and a second binding domain that specifically binds to a therapeutic payload and uses thereof are provided. Embodiments of the invention include isolated antibodies and derivatives and fragments thereof, pharmaceutical formulations comprising one or more of the humanized, chimeric, or human anti-CD123 monoclonal antibodies; and cell lines that produce these monoclonal antibodies.

Abstract: Genomic safe harbors (GSH) for genetic therapies in human stem cells and engineered nanoparticles to provide targeted genetic therapies are described. The GSH and/or associated nanoparticles can be used to safely and efficiently treat a variety of genetic, infectious, and malignant diseases.

Abstract: In one aspect, the invention provides methods for determining the contributions of canid populations to a canid genome. The methods comprise the steps of: (a) obtaining the identity of one or both alleles in a test canid genome for each of a set of markers; and (b) determining the contributions of canid populations to the test canid genome by comparing the alleles in the test canid genome to a database comprising canid population profiles, wherein each canid population profile comprises genotype information for the set of markers in the canid populations.

Abstract: The present disclosure describes methods of treating lymphoma that expresses a short histone H2A variant. In some embodiments, the method can comprise collecting a sample from a subject having or suspected of having lymphoma, detecting a short histone H2A variant (sH2A) expression level in the sample collected from the subject, and administering to the subject a therapeutically effective dose of an anthracycline agent, if the subject has sH2A variant expression level that is detectable. In other embodiments, the sH2A is the H2A.B variant. In other embodiments, the anthracycline agent can be aclarubicin.

Abstract: Methods for treating malignancies including multiple myeloma (MM), methods for expanding immune cells, methods for characterizing and enhancing anti-tumor functions of immune cells, and methods for characterizing immune cell responses to agonist immunotherapies including decoy-resistant IL-18 (DR-18) therapies.

Abstract: Compositions and methods to promote thymic function are described. The compositions and methods can activate the GPR39 receptor and/or a purinergic receptor, such as P2Y2. The activation can upregulate regenerative molecules, such as FOXN1, interleukin (IL)-22, IL-23, and bone morphogenetic protein 4 (BMP4).

Abstract: A method for detecting the binding of a chromatin-associated factor of interest to a sequence of chromatin DNA in a cell, including: contacting a permeabilized cell or nucleus with a specific binding agent that specifically recognizes the chromatin-associated factor of interest, wherein the specific binding agent is linked to a nuclease that is inactive or an activatable transposome; activating the nuclease or transposase, thereby excising the sequence of chromatin DNA bound to the chromatin-associated factor of interest; isolating the excised DNA; and determining the sequence of the excised DNA, thereby detecting binding of a chromatin-associated factor of interest to a sequence of chromatin DNA in the cell.

Abstract: The present disclosure relates to immune cells that express an exogenous neoantigen and an immunogenicity enhancer, or to T cells that express an exogenous neoantigen, and their use in treating a disease or disorder, such as cancer for tumor associated neoantigens. Related expression constructs, kits, host cells, pharmaceutical compositions, and methods are also provided.