Reversal of neuroinflammation in novel GS model mice by single i.c.v. administration of CHO-derived rhCTSA precursor protein.

Galactosialidosis (GS) is a lysosomal cathepsin A (CTSA) deficiency. It associates with a simultaneous decrease of neuraminidase 1 (NEU1) activity and sialylglycan storage. Central nervous system (CNS) symptoms reduce the quality of life of juvenile/adult-type GS patients, but there is no effective therapy.

In Cellulo Crystallization of Human Neuraminidase 1 and Biological Roles of -Glycans.

Human neuraminidase 1 (NEU1) is a lysosomal glycosidase that cleaves the terminal sialic acids of sialylglycoconjugates. NEU1 is biosynthesized in the endoplasmic reticulum (ER) lumen as an -glycosylated protein. NEU1 also associates with cathepsin A (CTSA) in ER, migrates to lysosomes, and exerts catalytic activity.

[Development of Enzyme Drugs Derived from Transgenic Silkworms to Treat Lysosomal Diseases].

　Lysosomal storage diseases (LSDs) are inborn errors caused by genetic defects of lysosomal enzymes associated with the excessive accumulation of natural substrates and neurovisceral manifestations. Until now, enzyme replacement therapy (ERT) with human lysosomal enzymes produced by genetically engineered mammalian cell lines has been applied clinically to treat several LSDs. ERT is based on the incorporation of N-glycosylated lysosomal enzymes through binding to glycan receptors on the surface of target cells and delivery to lysosomes.

Recent progress in development of transgenic silkworms overexpressing recombinant human proteins with therapeutic potential in silk glands.

Since 2000, transgenic silkworms have been developed to produce recombinant proteins with therapeutic potential for future clinical use, including antibody preparations. Lysosomal storage diseases (LSDs) are inherited metabolic disorders caused by mutations of lysosomal enzymes associated with excessive accumulation of natural substrates and neurovisceral symptoms. Over the past few years, enzyme replacement therapy (ERT) with human lysosomal enzymes produced by genetically engineered mammalian cell lines has been used clinically to treat several patients with an LSD involving multi-organ symptoms.