A method of eliciting an immune response in a patient who has a cancer includes administering to said patient a composition containing a population of activated T cells that selectively recognize the cancer cells in the patient that aberrantly express a peptide consisting of the amino acid sequence of GVYDGEEHSV (SEQ ID NO: 303), in which the peptide is in a complex with an MHC molecule.

The present invention relates, inter alia, to certain hepcidin peptide analogues, including peptides and dimers thereof, and to the use of the peptides and peptide dimers in the treatment and/or prevention of a variety of diseases, conditions or disorders, including treatment and/or prevention of iron overload diseases, which include hereditary hemochromatosis and iron-loading anemias, and other conditions and disorders described herein.

The present disclosure is directed to hybrid multifunctional macromers that can self-assemble to form nanoparticles for on-demand and targeted release of morphogens. Embodiments of the disclosure can include the hybrid multifunctional macromers and peptide sequences incorporated therein, self-assembled nanoparticles including the hybrid multifunctional macromers, methods for producing the hybrid multifunctional macromers and peptide sequences, and methods for treating a disease by the on-demand and targeted delivery of a compound using the hybrid multifunctional macromers.

The present disclosure is directed to hybrid multifunctional macromers that can self-assemble to form nanoparticles for on-demand and targeted release of morphogens. Embodiments of the disclosure can include the hybrid multifunctional macromers and peptide sequences incorporated therein, self-assembled nanoparticles including the hybrid multifunctional macromers, methods for producing the hybrid multifunctional macromers and peptide sequences, and methods for treating a disease by the on-demand and targeted delivery of a compound using the hybrid multifunctional macromers.

The present invention provides methods for guiding preservation of human neurons or human nerves during surgery by administering a fluorescently-labeled peptide that specifically binds to the human neurons or human nerves. The invention further provides human neuron or nerve targeting molecules comprising fluorescently-labeled peptides that specifically bind to human neurons or human nerves and compositions thereof.

The present invention provides methods for guiding preservation of human neurons or human nerves during surgery by administering a fluorescently-labeled peptide that specifically binds to the human neurons or human nerves. The invention further provides human neuron or nerve targeting molecules comprising fluorescently-labeled peptides that specifically bind to human neurons or human nerves and compositions thereof.

Compositions, devices and methods are described for improving adhesion, attachment, and/or differentiation of cells in a microfluidic device or chip. In one embodiment, one or more ECM proteins are covalently coupled to the surface of a microchannel of a microfluidic device. The microfluidic devices can be stored or used immediately for culture and/or support of living cells such as mammalian cells, and/or for simulating a function of a tissue, e.g., a liver tissue, muscle tissue, etc. Extended adhesion and viability with sustained function over time is observed.

A method of eliciting an immune response in a patient who has a cancer includes administering to said patient a composition containing a population of activated T cells that selectively recognize the cancer cells in the patient that aberrantly express a peptide consisting of the amino acid sequence of GVYDGEEHSV (SEQ ID NO: 303), in which the peptide is in a complex with an MHC molecule.

A method of eliciting an immune response in a patient who has a cancer includes administering to said patient a composition containing a population of activated T cells that selectively recognize the cancer cells in the patient that aberrantly express a peptide consisting of the amino acid sequence of GVYDGEEHSV (SEQ ID NO: 303), in which the peptide is in a complex with an MHC molecule.

Compositions, devices and methods are described for improving adhesion, attachment, and/or differentiation of cells in a microfluidic device or chip. In one embodiment, one or more ECM proteins are covalently coupled to the surface of a microchannel of a microfluidic device. The microfluidic devices can be stored or used immediately for culture and/or support of living cells such as mammalian cells, and/or for simulating a function of a tissue, e.g., a liver tissue, muscle tissue, etc. Extended adhesion and viability with sustained function over time is observed.