Targeting metastasis stem cells through a fatty acid receptor. The invention provides the use of blockers or inhibitors of CD36 activity or expression for the treatment of oral squamous cell cancer (OSCC), particularly for the treatment of generated metastases and for diminish is generation from primary tumours. Apart from shRNAs, anti-CD36 antibodies are provided as blockers or inhibitors, especially those that block the binding of CD36 to oxidized LDL and fatty acids and their incorporation into cells, because the promotion of their transport is indicated as the mechanism by which CD36 promote metastases dissemination and growth. Also provided is a method for identifying candidates to anticancer agents, particularly for OSCC metastasis, among those that promote in CD36+ cells, in vivo or in vitro, effects associated to CD36 depletion or blocking such as decrease of growth accumulation of lipid droplets and decrease of size in the case of metastases.

The present invention relates to antibodies (and fragments, variants, fusions and derivatives thereof) with binding specificity for domain 2 of human CD137 which are capable of inhibiting the binding of a reference antibody to human CD137. The antibodies and fragments have utility in the treatment of diseases such as cancer. The invention also relates to pharmaceutical compositions, uses, methods and kits comprising such antibodies.

Methods, compositions and cells are provided that identify and isolate a population of adult non-embryonic progenitor cells having multilineage potential, physical diameters of about 2 μm to about 8 μm in size or about 4 μm to about 6 μm, and expressing at least one of the stem cell associated genes among Oct-4, KLF-4, Nanog, Sox-2, Rex-1, GDF-3 or Stella. Methods are also provided that identify and isolate populations, which are subsets or subpopulations of progenitor adult stem cells within the population of the adult stem cells which is a heterogeneous population, the methods including contacting the adult stem cells with a ligand specific for at least one of: CD99, tetraspan, ICAM4, full-length MUC1, and truncated MUC1 receptor, in which a presence of a surface protein on the cells that bind to the ligand identifies the population which is the subset of the differentiated progenitor adult stem cells.

This disclosure provides methods and compositions for detecting Tph cells and/or reducing the number (or frequency) and/or activity of such cells in order to provide therapeutic benefit to a subject having or at risk of developing an autoantibody-associated condition such as an autoantibody-associated autoimmune disease.

The present invention is based, in part, on the discovery of anti-PSGL-1 compositions (e.g., monoclonal antibodies and antigen-binding fragments thereof) that regulate myeloid cell inflammatory phenotypes, such as suppressive myeloid cells, monocytes, macrophages, neutrophils, and/or dendritic cells, including polarization, activation, and/or function, and methods of using such anti-PSGL-1 compositions for therapeutic, diagnostic, prognostic, and screening purposes.

Provided is an anti-CLL1 antibody and an application thereof. The variable region of the anti-CLL1 antibody includes the CDRs of SEQ ID NO: 1 to 6, SEQ ID NO: 5, and SEQ ID NO: 7 to 11 or SEQ ID NO: 12 to 17. The anti-CLL1 antibody of the present application has significant binding ability to both free and cell surface CLL1. After humanization, the affinity of the antibody to CLL1 is further improved, and it has important application prospect in the clinical diagnosis and/or treatment of tumors.

The present invention provides novel compounds comprising an antigen of AML cells, and uses thereof.

An object of the present invention is to provide a cell population comprising adherent cells having low differentiation capacity derived from a fetal appendage, methods for producing or using the same, and a pharmaceutical composition comprising the cell population, in particular wherein the proportion of CD73- and CD90-positive adherent cells derived from a fetal appendage is 90% or more; and the cell population satisfies a relative expression level of LFA-3 gene to the expression level of SDHA gene of 1.0 or more, in particular wherein the relative expression level of HAPLN1 gene to the expression level of SDHA gene is 4.0 or more and/or the relative expression level of CCND2 gene to the expression level of SDHA gene is 1.5 or less, in particular wherein the proportion of the STRO-1-negative adherent cells derived from a fetal appendage is 95% or more.

Recurrent tonsillitis disease (RT) is a common indication for pediatric tonsillectomy, the most frequent childhood surgery. It is unknown why some children develop RT. The present disclosure demonstrates that RT tonsils exhibit significantly smaller germinal centers than non-RT tonsils, concomitant with a bias against Group A Streptococcus (GAS)-specific germinal center follicular helper CD4.sup.+ T cells (GC Tfh), and significantly reduced antibodies to the GAS virulence factor SpeA. The present disclosure also shows a significant immunogenetic component to this disease, with the identification of ‘at risk’ and ‘protective’ HLA alleles for RT. Finally, the present disclosure identifies a new cell type, granzyme B+GC Tfh cells, which are activated by SpeA, are significantly more abundant in RT GC Tfh cells, and have the capacity to kill B cells, thus, providing a window into the immunology and genetics of a classic childhood disease and identifies a new type of pathogenic T cell.

Provided herein are methods of using certain biomarkers, such as gene sets (e.g., a leukemic stem cell (LSC) signature), in predicting and monitoring clinical sensitivity and therapeutic response to certain compounds in patients having various diseases and disorders, such as cancer (e.g, lymphoma, multiple myeloma (MM), and leukemia, such as acute myeloid leukemia (AML)). Also provided herein are methods of treating diseases using the treatment compounds.