The present invention pertains to a ligand that contains a plurality of groups represented by formula (1) and is capable of multivalently binding to a glutamine transporter expressed in excess in a cancer cell compared to a normal cell.

The present invention is based on the seminal discovery of a panel of targeting peptides and antibodies that can recognize AD brains at different stages of the disease, starting from early to advanced stage. The peptide probes described here are unique in the field and can be expected to advance understanding on early neurodegenerative changes associated with AD and improve the therapeutic outcomes by early detection and intervention in AD. Further, the invention provides antibodies that can be used to treat AD.

The present invention is based on the seminal discovery of a panel of targeting peptides and antibodies that can recognize AD brains at different stages of the disease, starting from early to advanced stage. The peptide probes described here are unique in the field and can be expected to advance understanding on early neurodegenerative changes associated with AD and improve the therapeutic outcomes by early detection and intervention in AD. Further, the invention provides antibodies that can be used to treat AD.

A molecular probe includes the following formula:

P-L-C wherein P is a EDB-FN targeting peptide, C is a contrast agent; and L is a non-peptide linker that covalently links the peptide to the contrast agent.

A molecular probe includes the following formula:

P-L-C wherein P is a EDB-FN targeting peptide, C is a contrast agent; and L is a non-peptide linker that covalently links the peptide to the contrast agent.

Described herein is a peptide, a multimodal peptide ligand imaging agent and methods for use in tumor targeting, tumor visualization, drug delivery and as an imaging ligand. The invention further provides for a theranostic peptide agent and methods for use in the treatment of cancer and/or inflammation in a subject.

Described herein is a peptide, a multimodal peptide ligand imaging agent and methods for use in tumor targeting, tumor visualization, drug delivery and as an imaging ligand. The invention further provides for a theranostic peptide agent and methods for use in the treatment of cancer and/or inflammation in a subject.

Compounds containing TRPV6-binding peptides and their use in the detection and diagnosis of cancer are described. Also described are methods for detecting and staging cancer that use the compounds of the invention. Compounds containing TRPV6-binding peptides are useful for the delivery of diagnostic and therapeutic agents to cells or tumors that express TRPV6.

Compounds containing TRPV6-binding peptides and their use in the detection and diagnosis of cancer are described. Also described are methods for detecting and staging cancer that use the compounds of the invention. Compounds containing TRPV6-binding peptides are useful for the delivery of diagnostic and therapeutic agents to cells or tumors that express TRPV6.

Disclosed herein is a selective delivery molecule comprising: (a) an acidic sequence (portion A) which is effective to inhibit or prevent the uptake into cells or tissue retention, (b) a molecular transport or tissue retention sequence (portion B), and (c) a linker between portion A and portion B, and (d) cargo moieties (portion D.sub.A and D.sub.B).