The invention provides antibodies, antigen binding fragments thereof, chimeric antigen receptors (CARs), and engineered T cell receptors, polynucleotides encoding the same, and in vitro cells comprising the same. The polynucleotides, polypeptides, and in vitro cells described herein can be used in an engineered CAR T cell therapy for the treatment of a patient suffering from a cancer. In one embodiment, the polynucleotides, polypeptides, and in vitro cells described herein can be used for the treatment of multiple myeloma.

Disclosed herein are standardized and optimized, modular single-use kits and methods for sterile or non-sterile preparation of biological material, such as cells or tissue, for immediate use, further preparation, or storage. These single-use kits and methods facilitate and improve a healthcare practitioner's ability to prepare biological material for research, diagnostic and therapeutic purposes in a convenient, consistent, repeatable, safe and effective manner.

The present invention provides a method for generation of a cell composition of mesencephalic dopaminergic progenitor cells from a starting cell composition comprising pluripotent and/or multipotent stem cells, the method comprising the steps of a) differentiating said pluripotent and/or multipotent stem cells into mesencephalic dopaminergic progenitor cells, thereby generating a cell population comprising mesencephalic dopaminergic progenitor cells and other cells, b) dissociating the differentiated cells of step a) into a single cell suspension, and c) enriching said mesencephalic dopaminergic progenitor cells by using an antigen binding molecule specific for the CD47 antigen for positive selection of said mesencephalic dopaminergic progenitor cells in said single cell suspension. Said method may be performed in a closed cell sample processing system and may be performed in an automated manner.

The present invention provides an oral care composition comprising: (a) a dipeptide of the formula Xaa1-Xaa2 or Xaa2-Xaa1; wherein Xaa1 is an amino acid with a polar uncharged side chain; and Xaa2 is selected from an amino acid with a hydrophobic side chain, an amino acid with a polar uncharged side chain, and proline; or (b) a dipeptide of the formula Xaa3-Xaa4 or Xaa4-Xaa3; wherein Xaa3 is an amino acid with a hydrophobic side chain; and Xaa4 is selected from an amino acid with a hydrophobic side chain and an amino acid with a charged side chain.

A modified Herpes Simplex Virus (HSV), which has a portion of gD (glycoprotein D) of the glycoproteic envelope deleted and a heterologous single chain antibody inserted in place of such deleted portion; the modified HSV is capable of infecting cells through receptor HER2/ErbB2 but not through receptors HVEM/HveA and nectin1/HveC; uses of the modified HSV and a process of the preparation thereof are also disclosed.

The current invention relates to the field of a novel probiotic-curcuminoids formulation, which exhibits increased curcuminoids bioavailability, and viable probiotic microbial population in the presence of curcuminoids. The probiotic-curcuminoids formulation is made by encapsulation in ragi and galactomannan-rich fenugreek dietary fiber matrix. Compositions and methods for making this formulation are also disclosed herein.

The invention relates to an in vitro method to generate T cell progenitors, comprising the step of culturing CD34+ cells in a medium containing TNF-alpha and/or an antagonist of the Aryl hydro-carbon/Dioxin receptor, in particular StemRegenin 1 (SR1), in presence of a Notch ligand and optionally a fibronectin fragment.

Disclosed are chimeric antigen receptors (CAR) specific to αvβ6 integrin which is uniquely expressed in a wide variety of cancers. Also disclosed are vectors to express the CAR and methods to use the CAR to treat patients suffering from cancer. The instant disclosure provides a CAR comprising a binding domain specific to αvβ6 integrin. In various exemplary embodiments, the αvβ6 specific binding domain comprises a sequence as defined by SEQ ID NOs. 1-12. In some embodiments, the CAR comprises one or more intracellular domains comprising 4-1 BB domain, CD3ζ domain, and CD28 domain. In some embodiments, the αvβ6 binding domain is fused to an Fc region by a glycine-serine linker. In these and other embodiments, the Fc region is substantially similar to an lgG4 or an lgG1 Fc region.

The present invention relates to nanoparticles, kits, methods and compositions which are suitable for increasing the number of B regulatory (B.sub.reg) cells in a population of B cells; for producing Interleukin-10 (IL-10) or TGF-β. The inventors have shown that biocompatible nanoparticles comprising an antigen may be used for inducing B regulatory (B.sub.reg) cells. This production, either ex vivo, or in vivo, or in vitro, was associated to temporary or lasting remission of disease in spontaneously diabetic NOD mice.

The present disclosure features useful compositions and methods to treat repeat expansion disorders, e.g., in a subject in need thereof. In some aspects, the compositions and methods described herein are useful in the treatment of disorders associated with MLH1 activity.