Abstract: A method of one or more of, inhibiting motility, migration, dispersal, and metastasis of a cell that expresses an RPTP, which is proteolytically cleaved to form intracellular fragments in the cell includes administering to the cell an amount of an agent effective to inhibit one or more of the catalytic activity and function of the proteolytically cleaved intracellular domain-containing fragments of the RPTP.

Abstract: A method of treating cancer in a subject includes administering to the subject a therapeutically effective amount of an agent that specifically binds to or complexes with a proteolytically cleaved extracellular fragment of an immunoglobulin (Ig) superfamily cell adhesion molecule (CAM) or its receptor that is expressed by a cancer cell or another cell in the cancer cell microenvironment. The agent inhibits the cell adhesion function of the cleaved extracellular fragment or its receptor.

Abstract: Example apparatus and methods concern determining whether a target material appears in a region experiencing nuclear magnetic resonance. One method acquires a baseline value for a magnetic resonance parameter (MRP) while the region is not exposed to a molecular imaging agent that affects the MRP, acquiring a non-specific uptake value for the MRP while the sample is influenced by a non-specific molecular imaging agent and acquiring a specific uptake value for the MRP while the sample is influenced by a specific molecular imaging agent. The non-specific masking problem is solved by characterizing the region as a function of the baseline value, the non-specific uptake value, and the specific uptake value. The function relies on the similarities and differences between non-specific uptake of the non-specific molecular imaging agent, non-specific uptake of the specific molecular imaging agent, and specific uptake of the specific molecular imaging agent.

Abstract: A molecular probe for use in detection of cancer cells expressing an Ig superfamily cell adhesion molecule that binds in a homophilic fashion in a subject includes a targeting agent that specifically binds to and/or complexes with a proteolytically cleaved extracellular fragment of the Ig superfamily cell adhesion molecule.

Abstract: A molecular probe for use in detection of cancer cells expressing an Ig superfamily cell adhesion molecule that binds in a homophilic fashion in a subject includes a targeting agent that specifically binds to and/or complexes with a proteolytically cleaved extracellular fragment of the Ig superfamily cell adhesion molecule.

Abstract: A molecular probe for use in detecting, monitoring, and/or imaging cancer cells and/or cancer cell metastasis, migration, dispersal, and/or invasion includes a targeting agent and a detectable moiety. The targeting agent specifically binds to and/or complexes with a proteolytically cleaved extracellular fragment of an immunoglobulin (Ig) superfamily cell adhesion molecule that is expressed by a cancer cell or another cell in the cancer cell microenvironment.

Abstract: A method of one or more of inhibiting motility, migration, dispersal, and metastasis of a cell that expresses an RPTP, which is proteolytically cleaved to form intracellular fragments in the cell includes administering to the cell an amount of an agent effective to inhibit one or more of the catalytic activity and function of the proteolytically cleaved intracellular domain-containing fragments of the RPTP.

Abstract: A molecular probe for use in detection of cancer cells expressing an Ig superfamily cell adhesion molecule that binds in a homophilic fashion in a subject includes a targeting agent that specifically binds to and/or complexes with a proteolytically cleaved extracellular fragment of the Ig superfamily cell adhesion molecule.

Abstract: A method of promoting neuronal regeneration includes administering an agent to at least one neural cell in contact with at least one neural cell growth inhibiting component in an amount effective to promote neuronal regeneration. The agent is selected from the group consisting of a Class I Rho family GTPase, a C1 activator, a Class II Rho family GTPase, and a C2 inhibitor.

Abstract: A method modulating adhesion and migration of at least one cadherin expressing cell includes administering a cadherin modulating agent to the at least one cadherin expressing cell in an amount effective to modulate cell adhesion and migration. The cadherin modulating agent includes a small molecule peptidomimetic of a peptide or cyclic peptide that comprises a cadherin cell adhesion recognition sequence. The cadherin modulating agent can promote or inhibit neurite outgrowth when applied to at least one neuron disposed on a substrate coated with a cadherin molecule.

Abstract: C1 activators and/or C2 inhibitors can promote neuronal regeneration, even in the presence of the proteoglycans which compose glial rich scar tissue. Accordingly, the methods of the present application can be used to overcome the inhibitory effects of glial rich scar tissue, and thus be used to promote neuronal regeneration following tissue injury and/or degeneration, including tissue injury or degeneration which results in formation of a glial rich scar. The methods of the present application thus provide a novel treatment option for patients afflicted with any of a number of conditions which result in injury or degeneration of neuronal cells of the central and peripheral nervous system.