A method for magnetic cellular manipulation may include contacting a composition with a biological sample to form a mixture. The composition may include a plurality of particles. Each particle in the plurality of particles may include a magnetic substrate. The magnetic substrate may be characterized by a magnetic susceptibility greater than zero. The composition may also include a chargeable silicon-containing compound. The chargeable silicon-containing compound may coat at least a portion of the magnetic substrate. The biological sample may include cells and/or cellular structures. The method may also include applying a magnetic field to the mixture to manipulate the composition.

A method of chronically reducing a patient's pathological inflammation via the administration of an agent that specifically binds to an alpha-4 integrin or a dimer comprising an alpha-4 integrin is disclosed. The agent provided must have a binding affinity such that administration is sufficient to suppress pathological inflammation, and the agent is administered chronically to provide long-term suppression of pathological inflammation.

Disclosed herein are methods and compositions involved in identifying cells that lack apico-basal polarity as well as methods and compositions involved in selectively delivering payload molecules to cells that lack apico-basal polarity, and methods of selecting test compounds that restore apico-basal polarity.

The present disclosure provides proteins comprising antigen binding sites of antibodies that bind to interleukin-11 (IL-11) receptor alpha (IL-11Rα) and uses thereof, e.g., in therapy.

This present invention relates to a screening method for rapidly identifying the hybridomas upon cell size and the expression of an exogenous label such as fluorescence labeling. This method of this present invention can largely shortens the time cost for antibody development by saving the time period with comparison of traditional methods using cell culture with media such as HAT medium.

Provided are methods and agents for depleting senescent cells endogenous to a subject, involving administering to the subject a binding agent that is selectively toxic to senescent cells in an amount effective to reduce the number of such cells, wherein the binding agent binds selectively to a senescent cell surface protein having a misfolded conformation, relative to said protein in a native conformation.

The present invention relates to methods for detecting the chromatin state of a cell based on recording a super resolution image of nucleosome organization and correlating said imaged with size of nucleosomal clutches, nucleosomal density and/or number of nucleosomes per nucleosomal clutches. Additionally, the invention relates to a kit comprising a first antibody capable of specifically binding to a histone protein and a photoswitchable fluorophore linked-secondary antibody and the use of the kit of the invention for detecting the chromatin state of a cell and isolating a cell in an open chromatin state or in a closed chromatin state. The invention also relates to a device adapted to detect the chromatin state of a cell.

A method, system and computer-readable medium for assessing a disease condition of a cancer of a subject, including: receiving a blood sample from the subject; isolating a plurality of circulating tumor cells (CTCs) from the blood sample; measuring at least one of cell or cell nucleus sizes of each of the plurality of CTCs; determining a measured CTC size distribution of the plurality of CTCs based on the measuring; comparing the measured CTC size distribution to a reference CTC size distribution using a computer; and assigning the disease condition of the cancer of the subject based on the comparing.

The present disclosure relates to a dissociation reagent for tumor tissues. The dissociation reagent does not contain collagenase or trypsin but further contains hyaluronidase or a mixture of hyaluronidase and DNase I. The present disclosure also relates to use of the dissociation reagent in dispersing tumor tissues and detecting expression level of molecular markers on cell surface by flow cytometry. The dissociation reagent of the present disclosure does not cause degradation of molecular markers on cell surface such as CD8, PD-1, Tim-3, Lag-3 and the like, thus does not affect downstream assays.

A cell-capturing substrate, methods of using the cell-capturing substrate that allow for label-free cell separation, and kits that incorporate the cell-capturing substrate.