Abstract: The present invention provides inventive stitched polypeptides, pharmaceutical compositions thereof, and methods of making and using inventive stitched polypeptides.

Abstract: Therapeutic conjugates containing a statin or a modified statin (collectively “statin”) linked to a therapeutic agent (also referred to as a drug herein) are targeted to the liver by the statin or modified statin and thereby deliver the therapeutic agent to liver cells.

Abstract: The present invention relates to chirally controlled oligonucleotides of select designs, chirally controlled oligonucleotide compositions, and methods of making and using the same. In some embodiments, a provided chirally controlled oligonucleotide composition provides different cleavage patterns of a nucleic acid polymer than a reference oligonucleotide composition. In some embodiments, a provided chirally controlled oligonucleotide composition provides single site cleavage within a complementary sequence of a nucleic acid polymer.

Abstract: Described herein are methods for the synthesis of derivatives of thiosulfonate reagents. Said reagents have utility for the synthesis of phosphorothiotriesters from H-phosphonates in a stereospecific fashion.

Abstract: The present invention provides inventive stitched polypeptides, pharmaceutical compositions thereof, and methods of making and using inventive stitched polypeptides.

Abstract: Cross-linked peptides related to human p53 and bind to HMD2 or a family member of HDM2 useful for promoting apoptosis, e.g., in the treatment of and identifying therapeutic agents that binding to HMD2 or a family member of HDM2.

Abstract: Described herein are nucleic acid prodrugs and nucleic acid prodrugs comprising chiral phosphorous moieties. Also described herein are methods of making and using nucleic acid prodrugs and nucleic acid prodrugs comprising chiral phosphorous moieties.

Abstract: The present invention provides novel stabilized crosslinked compounds having secondary structure motifs, libraries of these novel compounds, and methods for the synthesis of these compounds libraries thereof. The synthesis of these novel stabilized compounds involves (1) synthesizing a peptide from a selected number of natural or non-natural amino acids, wherein the peptide comprises at least two moieties capable of undergoing reaction to promote carbon-carbon bond formation; and (2) contacting the peptide with a reagent to generate at least one crosslinker and to effect stabilization of a secondary structure motif. The present invention, in a preferred embodiment, provides stabilized p53 donor helical peptides. Additionally, the present invention provides methods for disrupting the p53/MDM2 binding interaction comprising (1) providing a crosslinked stabilized ?-helical structure; and (2) contacting the crosslinked stabilized ?-helical structure with MDM2.

Abstract: Disclosed herein are methods for identifying novel drug candidates.

Abstract: The present invention provides inventive polypeptides comprising a C terminal RAB binding domain (RabBD) of RAB family interacting proteins (FIPs) stabilized by peptide stapling, and pharmaceutical compositions thereof. Also provided are methods for modulating RAB function comprising contacting an inventive stapled polypeptide with a RAB protein, and methods of treatment associated with modulation of RAB activity. The present invention also provides methods of making the inventive stapled polypeptides by ring closing metathesis of unstapled polypeptide precursors.

Abstract: The present invention provides technology for making large (e.g., greater than 50 amino acids), semi-synthetic, stapled or stitched proteins. The method essentially involves ligating a synthetically produced stapled or stitched peptide to a larger protein. Modified version of IL-13 and MYC are provided as illustrative examples.

Abstract: The invention relates to bifunctional stapled or stiched peptides comprising a targeting domain, a linker moiety, and an effector domain, that can be used to tether, or to bring into close proximity, at least two cellular entities (e.g., proteins). Certain aspects relate to bifunctional stapled or stiched peptides that bind to an effector biomolecule through the effector domain and bind to a target biomolecule through the targeting domain. Polypeptides and/or polypeptide complexes that are tethered by the bifunctional stapled or stiched peptides of the invention, where the effector polypeptide bound to the effector domain of the bifunctional stapled or stiched peptide modifies or alters the target polypeptide bound to the targeting domain of the bifunctional peptide. Usesses of the inventive bifunctional stapled or stiched peptides including methods for treatment of disease (e.g., cancer, inflammatory diseases) are also provided.

Abstract: Disclosed herein are methods for identifying novel drug candidates.

Abstract: The present invention provides inventive stabilized STAT polypeptides, pharmaceutical compositions thereof and methods of making and using inventive stabilized STAT polypeptides.

Abstract: Provided herein are stabilized ?-CT polypeptides comprising an alpha-helical segment, and wherein the polypeptide is of Formula (I-1) or Formula (I-2): Rf—[XAA]s—XA1—XA2—XA3—XA4—XA5—XA6—XA7—XA8—XA9—XA10—XA11—XA12—XA13—XA14—[XAA]t—Re (I-1) Rf—[XAA]s—XC1—XC2—XC3—XC4—XC5—XC6—XC7—XC8—XC9—XC10—XC11—XC12—XC13—XC14—XC15—XC16—XC17—XC18—XC19—XC20—[XAA]t—Re (I-2) wherein the ?-CT polypeptide binds to the insulin receptor, and wherein the ?-CT polypeptide includes at least one staple (i.e. two cross-linked amino acids) and/or at least one stitch (i.e. three cross-linked amino acids). Further provided are insulin analogues including the stapled or stitched ?-CT polypeptides, pharmaceutical compositions thereof, methods of use, e.g., methods of treating a diabetic condition or complications thereof.

Abstract: Provided herein are fusion proteins comprising a homeodomain fusion protein domain and a transcription modulator domain for treatment of various diseases or disorders such as cancer. The homeodomain fusion protein domain binds to a target gene and the transcription modulator domain either activates or represses gene transcription. The present invention also relates to polynucleotides encoding the fusion proteins, vectors comprising the polynucleotides, cells comprising the polynucleotides, vectors, or fusion proteins. Also provided are methods of use and compositions for delivery of the fusion proteins.

Abstract: The present invention provides stapled polypeptides of the Formulae (I) and (VI): (I) (VI) and salts thereof; wherein the groups =====; R1a, R1b, R1c, R2a, R3a, R2b, R3b, R4a, R4b, RA, RZ, L1a, L1b, L2, L3, XAA, v, w, p, m, s, n, t, and q are as defined herein. The present invention further provides methods of preparing the inventive stapled polypeptides from unstapled polypeptide precursors. The present invention further provides pharmaceutical compositions comprising a stapled polypeptide of Formula (I) or (VI), and methods of using the stapled peptides. The present invention also provides modifications of the staples post ring closing metathesis.

Abstract: The present invention provides technology for making large (e.g., greater than 50 amino acids), semi-synthetic, stapled or stitched proteins. The method essentially involves ligating a synthetically produced stapled or stitched peptide to a larger protein. Modified version of IL-13 and MYC are provided as illustrative examples.

Abstract: The invention relates to bifunctional stapled or stitched peptides comprising a targeting domain, a linker moiety, and an effector domain, that can be used to tether, or to bring into close proximity, at least two cellular entities (e.g., proteins). Certain aspects relate to bifunctional stapled or stitched peptides that bind to an effector biomolecule through the effector domain and bind to a target biomolecule through the targeting domain. Polypeptides and/or polypeptide complexes that are tethered by the bifunctional stapled or stitched peptides of the invention, where the effector polypeptide bound to the effector domain of the bifunctional stapled or stitched peptide modifies or alters the target polypeptide bound to the targeting domain of the bifunctional peptide. Uses of the inventive bifunctional stapled or stitched peptides including methods for treatment of disease (e.g., cancer, inflammatory diseases) are also provided.

Abstract: The invention relates to ?-catenin targeting peptides comprising an ?-helical segment that are optionally stapled or stitched, and pharmaceutical compositions thereof. Uses of the inventive ?-catenin targeting polypeptides including methods for treatment of disease, such as diseases associated with aberrant Wnt signaling, including cancer, are also provided.