Abstract: This disclosure provides novel animal models for use in studying lysosomal storage diseases and methods of treating lysosomal storage diseases by increasing a level or activity of TPP1.

Abstract: This disclosure provides a method of reducing neuroinflammation or correcting brain weight loss in a subject. The method comprises administering to the subject a therapeutically effective amount of an agent that increases a level or activity of TPP1.

Abstract: The present invention relates to a method for treating a patient having disorder characterized by a deficient amount of functional CLN2 protein in the affected cells, which comprises administering to the patient an amount of CLN2 protein effective to reduce or eliminate the symptoms caused by the deficiency in CLN2 protein.

Abstract: The gene associated and causative of classical late infantile neuronal ceroid lipofuscinosis (LINCL), CLN2, has been identified and characterized. The translation product of this gene is a novel protease and a deficiency in this activity results in LINCL. Identification of CLN2 will not only aid in the prevention of LINCL through genetic counseling but provides strategies and test systems for therapeutic intervention. In addition, further characterization of this previously unknown lysosomal enzyme may provide useful insights into other more common human neurodegenerative disorders. Finally, the utility of a general approach for determining the molecular bases for lysosomal disorders of unknown etiology has been demonstrated.

Abstract: The gene associated and causative of classical late infantile neuronal ceroid lipofuscinosis (LINCL), CLN2, has been identified and characterized. The translation product of this gene is a novel protease and a deficiency in this activity results in LINCL. Identification of CLN2 will not only aid in the prevention of LINCL through genetic counseling but provides strategies and test systems for therapeutic intervention. In addition, further characterization of this previously unknown lysosothal enzyme may provide useful insights into other more common human neurodegenerative disorders. Finally, the utility of a general approach for determining the molecular bases for lysosomal disorders of unknown etiology has been demonstrated.

Abstract: The present invention relates to a method for treating a patient having disorder characterized by a deficient amount of functional CLN2 protein in the affected cells, which comprises administering to the patient an amount of CLN2 protein effective to reduce or eliminate the symptoms caused by the deficiency in CLN2 protein.

Abstract: The gene associated and causative of classical late infantile neuronal ceroid lipofuscinosis (LINCL), CLN2, has been identified and characterized. The translation product of this gene is a novel protease and a deficiency in this activity results in LINCL. Identification of CLN2 will not only aid in the prevention of LINCL through genetic counseling but provides strategies and test systems for therapeutic intervention. In addition, further characterization of this previously unknown lysosomal enzyme may provide useful insights into other more common human neurodegenerative disorders. Finally, the utility of a general approach for determining the molecular bases for lysosomal disorders of unknown etiology has been demonstrated.

Abstract: The present invention relates to a method for treating a patient having disorder characterized by a deficient amount of functional CLN2 protein in the affected cells, which comprises administering to the patient an amount of CLN2 protein effective to reduce or eliminate the symptoms caused by the deficiency in CLN2 protein.

Abstract: The present invention relates to a method for treating a patient having disorder characterized by a deficient amount of functional CLN2 protein in the affected cells, which comprises administering to the patient an amount of CLN2 protein effective to reduce or eliminate the symptoms caused by the deficiency in CLN2 protein.

Abstract: The present invention relates to a method for treating a patient having disorder characterized by a deficient amount of functional CLN2 protein in the affected cells, which comprises administering to the patient an amount of CLN2 protein effective to reduce or eliminate the symptoms caused by the deficiency in CLN2 protein.

Abstract: The present invention relates to a method for treating a patient having disorder characterized by a deficient amount of functional CLN2 protein in the affected cells, which comprises administering to the patient an amount of CLN2 protein effective to reduce or eliminate the symptoms caused by the deficiency in CLN2 protein.

Abstract: The gene associated and causative of classical late infantile neuronal ceroid lipofuscinosis (LINCL), CLN2, has been identified and characterized. The translation product of this gene is a novel protease and a deficiency in this activity results in LINCL. Identification of CLN2 will not only aid in the prevention of LINCL through genetic counseling but provides strategies and test systems for therapeutic intervention. In addition, further characterization of this previously unknown lysosomal enzyme may provide useful insights into other more common human neurodegenerative disorders. Finally, the utility of a general approach for determining the molecular bases for lysosomal disorders of unknown etiology has been demonstrated.

Abstract: The gene associated and causative of classical late infantile neuronal ceroid lipofuscinosis (LINCL), CLN2, has been identified and characterized. The translation product of this gene is a novel protease and a deficiency in this activity results in LINCL. Identification of CLN2 will not only aid in the prevention of LINCL through genetic counseling but provides strategies and test systems for therapeutic intervention. In addition, further characterization of this previously unknown lysosomal enzyme may provide useful insights into other more common human neurodegenerative disorders. Finally, the utility of a general approach for determining the molecular bases for lysosomal disorders of unknown etiology has been demonstrated.

Abstract: The gene associated and causative of classical late infantile neuronal ceroid lipofuscinosis (LINCL), CLN2, has been identified and characterized. The translation product of this gene is a novel protease and a deficiency in this activity results in LINCL. Identification of CLN2 will not only aid in the prevention of LINCL through genetic counseling but provides strategies and test systems for therapeutic intervention. In addition, further characterization of this previously unknown lysosomal enzyme may provide useful insights into other more common human neurodegenerative disorders. Finally, the utility of a general approach for determining the molecular bases for lysosomal disorders of unknown etiology has been demonstrated.

Abstract: The gene associated and causative of classical late infantile neuronal ceroid lipofuscinosis (LINCL), CLN2, has been identified and characterized. The translation product of this gene is a novel protease and a deficiency in this activity results in LINCL. Identification of CLN2 will not only aid in the prevention of LINCL through genetic counseling but provides strategies and test systems for therapeutic intervention. In addition, further characterization of this previously unknown lysosomal enzyme may provide useful insights into other more common human neurodegenerative disorders. Finally, the utility of a general approach for determining the molecular bases for lysosomal disorders of unknown etiology has been demonstrated.

Abstract: The gene associated and causative of classical late infantile neuronal ceroid lipofuscinosis (LINCL), CLN2, has been identified and characterized. The translation product of this gene is a novel protease and a deficiency in this activity results in LINCL. Identification of CLN2 will not only aid in the prevention of LINCL through genetic counseling but provides strategies and test systems for therapeutic intervention. In addition, further characterization of this previously unknown lysosomal enzyme may provide useful insights into other more common human neurodegenerative disorders. Finally, the utility of a general approach for determining the molecular bases for lysosomal disorders of unknown etiology has been demonstrated.

Abstract: The gene associated and causative of classical late infantile neuronal ceroid lipofuscinosis (LINCL), CLN2, has been identified and characterized. The translation product of this gene is a novel protease and a deficiency in this activity results in LINCL. Identification of CLN2 will not only aid in the prevention of LINCL through genetic counseling but provides strategies and test systems for therapeutic intervention. In addition, further characterization of this previously unknown lysosomal enzyme may provide useful insights into other more common human neurodegenerative disorders. Finally, the utility of a general approach for determining the molecular bases for lysosomal disorders of unknown etiology has been demonstrated.

Abstract: The gene associated and causative of classical late infantile neuronal ceroid lipofuscinosis (LINCL), CLN2, has been identified and characterized. The translation product of this gene is a novel protease and a deficiency in this activity results in LINCL. Identification of CLN2 will not only aid in the prevention of LINCL through genetic counseling but provides strategies and test systems for therapeutic intervention. In addition, further characterization of this previously unknown lysosomal enzyme may provide useful insights into other more common human neurodegenerative disorders. Finally, the utility of a general approach for determining the molecular bases for lysosomal disorders of unknown etiology has been demonstrated.