The present invention is related to a dual promoter lentiviral vector and methods of use for the treatment of diseases and disorders, specifically lysosomal storage disorders.

The present invention relates to a vector comprising an ASAH1 open reading frame, for use in the treatment of acid ceramidase deficiency.

The present invention relates to an inhibitor of sphingolipids for use in the treatment or prevention of an aging related-disease and/or aging.

A method for producing an objective substance such as sphingoid bases and sphingolipids using yeast is provided. An objective substance is produced by cultivating yeast having an ability to produce the objective substance in a culture medium containing an additive that is able to associate with, bind to, solubilize, and/or capture the objective substance, and collecting the objective substance from cells of the yeast and/or the culture medium.

The present disclosure relates to methods, cells, and compositions for producing a product of interest, e.g., a recombinant protein. In particular, the present disclosure provides improved mammalian cells expressing the product of interest, where the cells (e.g., Chinese Hamster Ovary (CHO) cells) have reduced or eliminated activity, e.g., expression, of certain host cell proteins, e.g., enzymes including, but not limited to, certain lipases, esterases, and/or hydrolases.

The present disclosure pertains to the use of an Anc80 viral vector that encodes a sphingolipid-metabolizing protein such as acid ceramidase to achieve expression of the sphingolipid-metabolizing protein in a mammalian cell or group of cells. Expression of the protein from the Anc80 vector reduces high levels of ceramide in the cell that lead to cell death or senescence.

Immune-phenotype markers for Farber disease and their uses are disclosed, as are methods of diagnosing and treating Farber disease based on these markers.

The present invention relates to a therapeutic composition including a ceramidase mixture and a pharmaceutically acceptable carrier, where the ceramidase mixture includes an inactive acid ceramidase precursor and an active acid ceramidase. The invention also relates to a method of acid ceramidase treatment, including formulating the acid ceramidase used in said treatment as a ceramidase mixture, where the ceramidase mixture includes an inactive acid ceramidase precursor and an active acid ceramidase. The invention further relates to a method of producing a therapeutic composition including providing a medium containing an inactive acid ceramidase precursor; incubating the medium under conditions effective to transform a portion of the inactive acid ceramidase precursor to active acid ceramidase; and recovering the incubated medium as a ceramidase mixture comprising the inactive acid ceramidase precursor and an active acid ceramidase. The present invention also relates to preparation of a therapeutic composition of a ceramidase lacking acid sphingomyelinase.

The present disclosure pertains to the use of a modified RNA (modRNA) that encodes a sphingolipid-metabolizing protein such as acid ceramidase to achieve expression of the sphingolipid-metabolizing protein in a mammalian cell or group of cells. Expression of the protein from the (modRNA) reduces high levels of ceramide in the cell that lead to cell death or senescence.

The present disclosure pertains to the use of a modified RNA (modRNA) that encodes a sphingolipid-metabolizing protein such as acid ceramidase to achieve expression of the sphingolipid-metabolizing protein in a mammalian cell or group of cells. Expression of the protein from the (modRNA) reduces high levels of ceramide in the cell that lead to cell death or senescence.