Disclosed herein are novel compounds, pharmaceutical compositions comprising such compounds and related methods of their use. The compounds described herein are useful, e.g., as liposomal delivery vehicles to facilitate the delivery of encapsulated polynucleotides to target cells and subsequent iransfection of said target cells, and in certain embodiments are characterized as having one or more properties that afford such compounds advantages relative to other similarly classified lipids.

A method for purification of a sulfatase using metal chelating chromatography without using tags such as His-tag, etc. is disclosed. An embodiment provides a method for purifying a sulfatase including the steps of: (a) providing a sulfatase-containing solution comprising one or a plurality of impurities; (b) performing a first chromatographic separation of the sulfatase-containing solution using a metal affinity chromatography resin; (c) performing a second chromatographic separation using a cation exchange chromatography resin; and (d) performing a final chromatographic separation using an anion exchange chromatography resin, wherein the impurities are removed thereby.

Compositions and methods are provided for silencing the Sulf2 and/or GPC3 genes in vivo. Potent siRNA sequences are provided that silence regions of the Sulf2 and GPC3 genes that are identical in human, mice and non-human primates. Combinations of siRNAs also are provided that result in additivity or synergy with silencing of Sulf2 and/or GPC3. Silencing SULF2+TGFβ1 showed a dramatic effect against cancer growth in vitro and in vivo.

Disclosed herein are novel compounds, pharmaceutical compositions comprising such compounds and related methods of their use. The compounds described herein are useful, e.g., as liposomal delivery vehicles to facilitate the delivery of encapsulated polynucleotides to target cells and subsequent iransfection of said target cells, and in certain embodiments are characterized as having one or more properties that afford such compounds advantages relative to other similarly classified lipids.

The present invention provides, among other things, improved substrate clearance assays for lysosomal enzyme that are particularly useful for measuring potency of lysosomal enzymes or other therapeutics for treatment of lysosomal storage diseases. In particular, the present invention combines a physiologically relevant substrate cell assay and an efficient scintillation based detection method.

Disclosed herein are novel compounds, pharmaceutical compositions comprising such compounds and related methods of their use. The compounds described herein are useful, e.g., as liposomal delivery vehicles to facilitate the delivery of encapsulated polynucleotides to target cells and subsequent transfection of said target cells, and in certain embodiments are characterized as having one or more properties that afford such compounds advantages relative to other similarly classified lipids.

Disclosed herein are novel compounds, pharmaceutical compositions comprising such compounds and related methods of their use. The compounds described herein are useful, e.g., as liposomal delivery vehicles to facilitate the delivery of encapsulated polynucleotides to target cells and subsequent iransfection of said target cells, and in certain embodiments are characterized as having one or more properties that afford such compounds advantages relative to other similarly classified lipids.

The present disclosure provides methods for producing activated type I sulfatases, or functional fragments thereof, using Formylglycine Generating Enzymes (FGEs). Also featured by the disclosure are recombinant fungal (e.g., Yarrowia lipolytica) cells expressing the FGE and, in some embodiments, type I sulfatases, or functional fragments thereof, and/or additional accessory enzymes. The disclosure also provides activated type I sulfatases or functional fragments thereof, made by the disclosed methods and therapeutic methods using the activated type I sulfatases or functional fragments thereof.

The present invention provides, among other things, improved substrate clearance assays for lysosomal enzyme that are particularly useful for measuring potency of lysosomal enzymes or other therapeutics for treatment of lysosomal storage diseases. In particular, the present invention combines a physiologically relevant substrate cell assay and an efficient scintillation based detection method.

The subject invention concerns materials and methods for treating or preventing disease and conditions associated with various sulfatase enzymes that are defective or that are not properly expressed in a person or animal. In one embodiment, the disease is Sanfilippo A (MPS-IIIA) disease. The subject invention also concerns materials and methods for treating or preventing multiple sulfatase deficiency (MSD) in a person or animal. Compounds of the invention include a fusion protein comprising i) a mammalian sulfatase, or an enzymatically active fragment or variant thereof, and ii) a plant lectin or a binding subunit thereof. In a specific embodiment, the mammalian sulfatase is a human sulfatase, or an enzymatically active fragment or variant thereof. Polynucleotides encoding the fusion proteins are also contemplated for the subject invention. The subject invention also concerns materials and methods for producing proteins of the invention.