A novel human bladder cancer marker AG-CD71 and a monoclonal antibody ABC71 for preventing AG-CD71 are provided. The human bladder cancer marker AG-CD71 is an abnormal glycosylated transferrin receptor TFRC; the abnormal glycosylated transferrin receptor TFRC refers to the TFRC carrying a saccharide structure Fucal-4(GlcNAcbl-3)[6OSO3]GlcNAc as an epitope. Also provided is an antibody for the human bladder cancer marker AG-CD71; the antibody is the monoclonal antibody ABC71 specific for the human bladder cancer AG-CD71; the monoclonal antibody is secreted from the hybridoma cell strain the preservation number of which is CGMCC No. 14312.

The present disclosure provides, inter alia, methods for identifying cells undergoing non-apoptotic cell death, e.g., ferroptosis, in a subject, using anti-TfR1 antibodies such as 3F3-FMA. Methods for treating or ameliorating the effects of a cancer in a subject, methods for enhancing the anti-tumor effect of radiation in a subject with cancer undergoing radiotherapy, and compositions and kits comprising anti-TfR1 antibodies disclosed herein are also provided.

Flow cytometry is used for diagnosis of infectious diseases by an analysis of cell mediated immune responses to specific infective agent antigens. Apparatus and methods of advanced flow cytometry are utilized to detect cell mediated immune responses to the presence of specific antigens from infective agents, such as bacteria, protozoa, viruses, helminth, prions. In some embodiments, methods as provided herein can be utilized in vitro to diagnose multiple infections within individuals.

Flow cytometry is used for diagnosis of infectious diseases by an analysis of cell mediated immune responses to specific infective agent antigens. Apparatus and methods of advanced flow cytometry are utilized to detect cell mediated immune responses to the presence of specific antigens from infective agents, such as bacteria, protozoa, viruses, helminth, prions. In some embodiments, methods as provided herein can be utilized in vitro to diagnose multiple infections within individuals.

Provided herein, inter alia, are nucleic acid compounds capable of binding transferrin receptor on a cell and internalizing into said cell. The compositions provided herein may be useful for delivering therapeutic and diagnostic agents to a cell. Further provided are pharmaceutical compositions and methods of treatment using nucleic acid compounds provided herein.

Provided herein, inter alia, are nucleic acid compounds capable of binding transferrin receptor on a cell and internalizing into said cell. The compositions provided herein may be useful for delivering therapeutic and diagnostic agents to a cell. Further provided are pharmaceutical compositions and methods of treatment using nucleic acid compounds provided herein.

Disclosed herein is a companion diagnostic to predict efficacy of combination lenalidomide and erythropoietin treatment in patients with a erythropoietin (Epo)-refractory, Lower Risk (LR) Non-deletion 5q [Del(5q)] myelodysplastic syndrome (MDS). The method involves assaying erythroid precursors from a biological sample from the subject for a CD45 isoform profile, and treating the subject with a combination of lenalidomide and erythropoietin if the erythroid precursors have a predominance of large CD45RA and CD45RB isoforms compared to small CD45RO isoform.

Methods for separating cells from a sample (e.g., separating fetal red blood cells from maternal blood) include introducing a sample including cells into one or more microfluidic channels. In one embodiment, the device includes at least two processing steps. For example, a mixture of cells is introduced into a microfluidic channel that selectively allows the passage of a desired type of cell, and the population of cells enriched in the desired type is then introduced into a second microfluidic channel that allows the passage of the desired cell to produce a population of cells further enriched in the desired type. The selection of cells is based on a property of the cells in the mixture, for example, size, shape, deformability, surface characteristics (e.g., cell surface receptors or antigens and membrane permeability), or intracellular properties (e.g., expression of a particular enzyme).

The present invention concerns a monoclonal antibody and corresponding hybridoma cells and antigens suitable for isolating fetal cells from maternal blood. The inventive monoclonal antibody reacts with a surface antigen present on fetal red blood cells including their nucleated precursor cells, but not with surface antigens on adult erythroid cell.

The present invention pertains to a new method for the diagnosis, prognosis, stratification and/or monitoring of a therapy, of cancer, preferably colorectal cancer (CRC), in a subject. The method is based on the determination of the level of a panel of least one, preferably 3, 4 and most preferably at least 5, protein biomarker selected from the group consisting of the protein biomarkers Amphiregulin (AREG), Carcinoembryonic antigen (CEA), Insulin like growth factor binding protein 2 (IGFBP2), Keratin, type I cytoskeletal 19 (KRT19), Mannan binding lectin serine protease 1 (MASP1), Osteopontin (OPN), Serum paraoxonase lactonase 3 (PON3) and Transferrin receptor protein 1 (TR), in the biological sample obtained from the subject. The new biomarker panel of the invention allows diagnosing and even stratifying various cancer diseases. Furthermore, provided are diagnostic kits for performing the non-invasive methods of the invention. Since the biomarker panel of the invention provides a statistically robust method independent of the protein detection technology used, and considering that the biomarker panel of the invention is detected in plasma samples of the subjects, the invention provides an early detection screening examination that may be applied to a larger population.