The present disclosure provides for a bispecific protein that enables simultaneous binding of both albumin and a desired target to an ADAPT (ABD Derived Affinity ProTeins) molecule. The present disclosure provides for an ADAPT molecule wherein the proposed binding surface of the desired target is located on helix 1 and helix 2 of the ADAPT molecule.

The present disclosure provides for a bispecific protein that enables simultaneous binding of both albumin and a desired target to an ADAPT (ABD Derived Affinity ProTeins) molecule. The present disclosure provides for an ADAPT molecule wherein the proposed binding surface of the desired target is located on helix 1 and helix 2 of the ADAPT molecule.

The present invention relates to the generation of lead-212 for therapeutic use. Specifically, are methods related to the generation of lead-212 based radio labelled proteins, such as radioimmunoconjugates, embodiments of the present invention.

The present invention relates to novel compounds of the formula (II) and formula (III) ##STR00001##
that can be employed in the selective Tau detection of disorders and abnormalities associated with Tau aggregates such as Alzheimer's disease and other tauopathies using Positron Emission Tomography (PET) Imaging.

The invention relates to novel compounds with the ability to link an immune response to a defined therapeutic target, to the use of said compounds in treating cancer and infectious diseases, to compositions containing said compounds, processes for their preparation and to novel intermediates used in said process.

Alkylphosphocholine analogs incorporating a chelating moiety that chelates a radioactive metal isotope are disclosed herein. The alkylphophocholine analogs, which can be used to treat or detect solid tumors, have the formula: ##STR00001##
R.sub.1 includes a chelating agent that is chelated to a metal atom, wherein the metal atom is a positron or single photon emitting metal isotope with a half life of greater than or equal to 4 hours, or an alpha, beta or Auger emitting metal isotope with a half life of greater than 6 hours and less than 30 days; a is 0 or 1; n is an integer from 12 to 30; m is 0 or 1; Y is —H, —OH, —COOH, —COOX, —OCOX, or —OX, wherein X is an alkyl or an arylalkyl; R.sub.2 is —N.sup.+H.sub.3, —N.sup.+H.sub.2Z, —N.sup.+HZ.sub.2, or —N.sup.+Z.sub.3, wherein each Z is independently an alkyl or an aroalkyl; and b is 1 or 2.

The present invention provides peptide conjugates that target an integrin such as α.sub.vβ.sub.6 integrin. In particular embodiments, the peptide conjugates comprise a moiety such as a PEG moiety, an imaging agent, or a therapeutic agent. The peptide conjugates of the present invention are particularly useful for imaging a tumor, organ, or tissue. Compositions and kits containing the peptide conjugates of the present invention are also provided herein.

The present invention relates to compounds that are useful as metal ligands and which either contain a molecular recognition moiety or can be bound to a molecular recognition moiety and methods of making these compounds. Once the compounds that contain a molecular recognition moiety are coordinated with a suitable metallic radionuclide, the coordinated compounds are useful as radiopharmaceuticals in the areas of radiotherapy and diagnostic imaging. The invention therefore also relates to methods of diagnosis and therapy utilising the radiolabelled compounds of the invention.

This invention relates the use of cortisol blockers (glucocorticoid receptor [GR] antagonists) for the treating or preventing treatment resistant prostate cancer, treating or preventing neoplasia, and treating or preventing infection related to acute or chronic injury or disease.

This invention relates the use of cortisol blockers (glucocorticoid receptor [GR] antagonists) for the treating or preventing treatment resistant prostate cancer, treating or preventing neoplasia, and treating or preventing infection related to acute or chronic injury or disease.