The present disclosure provides the sequence of a Paenibacillus polymyxa preproenzyme which is the precursor of a neutral protease, expression thereof in a transformed host organism, and methods for production of the neutral protease, by recombinant means. Further, use of the recombinantly produced neutral protease is disclosed in the field of cell biology, particularly for the purpose of tissue dissociation. The disclosure also includes blends with other proteases. Further disclosed are nucleotide sequences encoding the neutral protease.

Brain injury can be caused by trauma or may occur in stroke or neurodegenerative diseases. The disclosure relates to compositions that can include exosomes isolated from human adipose-derived stem cells (hASC) and methods where exosomes from hASC may be used alone or in combination with insulin for the treatment of brain injury.

The present invention relates to a medicament for use in a method of inducing a cellular cytotoxic immune response, the method comprising the steps of: i) administering to a patient a delivery system comprising (a) a molecule binding to a receptor on the surface of a dendritic cell, (b) an antigen-comprising protein bound to molecule of (a) and (c) a first adjuvant, wherein upon binding of the molecule of (a) to the receptor, the protein of (b) is internalized and processed in the dendritic cell and the antigen comprised in the protein is presented on the surface of the dendritic cell, thereby activating a T cell in the patient; and ii) administering to the patient a re-activator selected from the group consisting of (d) complexed interleukin 2 (IL-2cx), (e) a peptide-loaded major histocompatibility complex class I (MHC-I) presenting cell and a second adjuvant, and (f) a combination of (d) and (e), wherein the peptide is derived from the antigen-comprising protein as defined in step i), thereby reactivating the T cell activated in step i), wherein the re-activator of step ii) is administered in a time frame of from 0 h to 14 days after the administration of the delivery system of step i).

Provided are binding polypeptides (e.g., antibodies), and drug conjugates thereof, comprising an Fc domain with an altered glycosylation profile and reduced effector function. In particular embodiment, the Fc domain comprises: an asparagine residue at amino acid position 298, according to EU numbering; and a serine or threonine residue at amino acid position 300, according to EU numbering. Also provided are nucleic acids encoding the antigen-binding polypeptides, recombinant expression vectors and host cells for making such antigen-binding polypeptides. Methods of using the antigen-binding polypeptides disclosed herein to treat disease are also provided.

There are provided compositions and methods for modulating stem cell division decisions, in particular, division symmetry. It has been demonstrated that wnt7a acts through frizzled-7 receptor expressed on the surface of adult stem cells, e.g. satellite stem cells, to activate the planar cell polarity (PCP) pathway, thereby promoting symmetrical expansion of stem cells. The compositions and methods of the invention are useful, for example, in modulating stem cell division symmetry in vitro and in vivo, in replenishing and expanding the stem cell pool, and in promoting the formation, maintenance, repair and regeneration of tissue.

Cell culture media comprising antioxidants are provided herein as are methods of using the media for cell culturing and polypeptide production from cells. Compositions comprising polypeptides, such as therapeutic polypeptides, produced by the methods herein are also provided.

This invention relates generally to compositions and methods for identifying the regulatory network that modulates, controls or otherwise influences T cell balance, for example, Th17 cell differentiation, maintenance and/or function, as well compositions and methods for exploiting the regulatory network that modulates, controls or otherwise influences T cell balance in a variety of therapeutic and/or diagnostic indications. This invention also relates generally to identifying and exploiting target genes and/or target gene products that modulate, control or otherwise influence T cell balance in a variety of therapeutic and/or diagnostic indications.

The present invention relates to the ex vivo differentiation of NK cells from CD34+ hematopoietic stem cells. Such NK cells and their progenitor cells can be used in therapies of a broad range of malignancies. In the present invention it is shown that IL-12 modulates ex vivo NK cell differentiation. Specific, we achieved significantly higher expression of KIR, CD16 and CD62L in the presence of IL-12 in the cell culture system. The induction of receptor expression by IL-12 occurred predominantly on an augmented population of CD33+NKG2A+ NK cells early during NK cell differentiation. These cells further show enhanced cytolytic activity against MHC class I positive AML targets. In line with the enhanced CD16 expression, IL-12 modulated ex vivo generated NK cells exhibit an improved antibody-dependent-cytotoxicity, using anti CD20 antibody on various B cell targets. Additional to the enhanced expression of CD62L, we show that this cell population consists of a specific chemokine receptor profile. By showing an increased capacity for adhesion to lymphendothelial cells and a specific chemokine receptor profile, we show that IL-12 provided the ex vivo generated NK cells with specific tissue-homing abilities.

A population of cells possesses enhanced selectin binding based upon a fucosylated selectin ligand present on a surface thereof. Methods of producing the population of cells, along with therapeutic methods of using the cells, are also disclosed.

The present invention relates to methods and kits for expanding a stem cell population. More particularly, the invention relates, inter alia, to methods, kits, and compositions for expanding a stem cell population, particularly a hematopoietic stem cell population.