Abstract: Provided are methods for treatment of Fabry disease in patients having HEK assay amenable mutations in ?-galactosidase A. Certain methods comprise administering migalastat or a salt thereof every other day, such as administering about 150 mg of migalastat hydrochloride every other day.

Abstract: Provided are methods for treatment of Fabry disease in patients having HEK assay amenable mutations in ?-galactosidase A. Certain methods comprise administering migalastat or a salt thereof every other day, such as administering about 150 mg of migalastat hydrochloride every other day.

Abstract: Described herein are novel compounds and methods for the treatment and/or prevention of cerebral amyloidoses such as Alzheimer's disease (AD) and/or cerebral amyloid angiopathy (CAA).

Abstract: Provided are methods for treatment of Fabry disease in patients having HEK assay amenable mutations in ?-galactosidase A. Certain methods comprise administering migalastat or a salt thereof every other day, such as administering about 150 mg of migalastat hydrochloride every other day.

Abstract: Novel CDKL5 enzyme variants are provided, as well as fusion proteins comprising full-length CDKL5 polypeptides or CDKL5 variants. Such fusion proteins can include cell-penetrating polypeptides and optionally comprising a leader signal polypeptide and/or tags. Also provided are methods of producing such CDKL5 variants and fusion proteins, as well as pharmaceutical compositions, methods of treatment, and uses of such recombinant proteins.

Abstract: The presently disclosed subject matter provides a formulation for the use of 1-deoxygalactonojirimycin and/or enzyme replacement therapy for the treatment of Fabry disease.

Abstract: Provided are methods for the treatment of Fabry disease in a patient. Certain methods relate to the treatment of ERT-experienced or ERT-naïve Fabry patients. Certain methods comprise administering to the patient about 100 mg to about 150 mg free base equivalent of migalastat for enhancing and/or stabilizing cardiac function.

Abstract: Provided are methods for treatment of Fabry disease in patients having HEK assay amenable mutations in ?-galactosidase A. Certain methods comprise administering migalastat or a salt thereof every other day, such as administering about 150 mg of migalastat hydrochloride every other day.

Abstract: Provided are methods of treating a patient diagnosed with Fabry disease and methods of enhancing ?-galactosidase A in a patient diagnosed with or suspected of having Fabry disease. Certain methods comprise administering to a patient a therapeutically effective dose of a pharmacological chaperone for ?-galactosidase A, wherein the patient has a splice site mutation in intron 4 of the nucleic acid sequence encoding ?-galactosidase A. Also described are uses of pharmacological chaperones for the treatment of Fabry disease and compositions for use in the treatment of Fabry disease.

Abstract: Provided are methods for treatment of Fabry disease in patients having HEK assay amenable mutations in ?-galactosidase A. Certain methods comprise administering migalastat or a salt thereof every other day, such as administering about 150 mg of migalastat hydrochloride every other day.

Abstract: Provided are methods for treatment of Fabry disease in patients having HEK assay amenable mutations in ?-galactosidase A. Certain methods comprise administering migalastat or a salt thereof every other day, such as administering about 150 mg of migalastat hydrochloride every other day.

Abstract: Provided are methods for treatment of Fabry disease in patients having HEK assay amenable mutations in ?-galactosidase A. Certain methods comprise administering migalastat or a salt thereof every other day, such as administering about 150 mg of migalastat hydrochloride every other day.

Abstract: Provided are methods for treatment of Fabry disease in patients having HEK assay amenable mutations in ?-galactosidase A. Certain methods comprise administering migalastat or a salt thereof every other day, such as administering about 150 mg of migalastat hydrochloride every other day.

Abstract: Provided are methods for treatment of Fabry disease in patients having HEK assay amenable mutations in ?-galactosidase A. Certain methods comprise administering migalastat or a salt thereof every other day, such as administering about 150 mg of migalastat hydrochloride every other day.

Abstract: Provided are methods for treatment of Fabry disease in patients having HEK assay amenable mutations in ?-galactosidase A. Certain methods comprise administering migalastat or a salt thereof every other day, such as administering about 150 mg of migalastat hydrochloride every other day.

Abstract: Provided are methods for treatment of Fabry disease in patients having HEK assay amenable mutations in ?-galactosidase A. Certain methods comprise administering migalastat or a salt thereof every other day, such as administering about 150 mg of migalastat hydrochloride every other day.

Abstract: Provided are methods for treatment of Fabry disease in patients having HEK assay amenable mutations in ?-galactosidase A. Certain methods comprise administering migalastat or a salt thereof every other day, such as administering about 150 mg of migalastat hydrochloride every other day.

Abstract: Provided are methods for treatment of Fabry disease in patients having HEK assay amenable mutations in ?-galactosidase A. Certain methods comprise administering migalastat or a salt thereof every other day, such as administering about 150 mg of migalastat hydrochloride every other day.

Abstract: Described herein are methods of making targeting peptides conjugated to a recombinant lysosomal enzyme by modifying the amino (N)-terminus and one or more lysine residues on a recombinant human lysosomal enzyme using a first crosslinking agent to give rise to a first crosslinking agent modified recombinant human lysosomal enzyme, modifying a lysine or cysteine within a short extension linker at the carboxyl (C)-terminus on a variant IGF-2 peptide having a short extension linker using a second crosslinking agent to give rise to a second crosslinking agent modified variant IGF-2 peptide, and then conjugating the first crosslinking agent modified recombinant human lysosomal enzyme to the second crosslinking agent modified variant IGF-2 peptide containing a short extension linker. Also described herein are conjugates synthesized using the methods disclosed herein. Also described herein are treatment methods using the disclosed conjugates.