Late Infantile Neuronal Ceroid Lipofuscinosis (LINCL) is a rare neurodegenerative disease caused by mutations in the Cln2 gene that leads to deficiency or loss of function of the tripeptidyl peptidase 1 (TPP1) enzyme. TPP1 deficiency is known to cause the accumulation of autofluoroscent lipid-protein pigments in brain. Similar to other neurodegenerative disorders, LINCL is also associated with neuroinflammation and neuronal damage. Despite investigations, no effective therapy is currently available for LINCL. Therefore, we administered gemfibrozil (gem), an food and drug administration (FDA)-approved lipid-lowering drug, which has been shown to stimulate lysosomal biogenesis and induce anti-inflammation, orally, at a dose of 7.5 mg/kg body wt/day to Cln2 mice. We observed that gem-fed Cln2 mice lived longer by more than 10 weeks and had better motor activity compared to vehicle (0.1% Methyl cellulose) treatment. Gem treatment lowered the burden of storage materials, increased anti-inflammatory factors like SOCS3 and IL-1Ra, up-regulated anti-apoptotic molecule like phospho-Bad, and reduced neuronal apoptosis in the brain of Cln2 mice. Collectively, this study reinforces a neuroprotective role of gem that may be of therapeutic interest in improving the quality of life in LINCL patients.
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| http://dx.doi.org/10.1111/jnc.13987 | DOI Listing |
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GABAergic interneuron deficits have been implicated in the epileptogenesis of multiple neurological diseases. While epileptic seizures are a key clinical hallmark of CLN2 disease, a childhood-onset neurodegenerative lysosomal storage disorder caused by a deficiency of tripeptidyl peptidase 1 (TPP1), the etiology of these seizures remains elusive. Given that mice display fatal spontaneous seizures and an early loss of several cortical interneuron populations, we hypothesized that those two events might be causally related.
View Article and Find Full Text PDFAcidified drinking water improves motor function, prevents tremors and changes disease trajectory in Cln2 mice, a model of late infantile Batten disease.
Sci Rep
November 2023
Pediatrics and Rare Diseases Group, Sanford Research, 2301 E. 60th Street N., Sioux Falls, SD, 57104, USA.
Batten disease is a group of mostly pediatric neurodegenerative lysosomal storage disorders caused by mutations in the CLN1-14 genes. We have recently shown that acidified drinking water attenuated neuropathological changes and improved motor function in the Cln1 and Cln3 mouse models of infantile CLN1 and juvenile CLN3 diseases. Here we tested if acidified drinking water has beneficial effects in Cln2 mice, a nonsense mutant model of late infantile CLN2 disease.
View Article and Find Full Text PDFExtracellular Vesicles Released by Genetically Modified Macrophages Activate Autophagy and Produce Potent Neuroprotection in Mouse Model of Lysosomal Storage Disorder, Batten Disease.
Cells
May 2023
Center for Nanotechnology in Drug Delivery, University of North Carolina at Chapel Hill, Chapel Hill, NC 27599, USA.
Article Synopsis
- Researchers developed a new drug delivery system using extracellular vesicles (EVs) to transport the enzyme TPP1 to treat Batten disease.
- A single injection of TPP1-loaded EVs showed over 20% delivery efficiency to the brain and demonstrated cumulative therapeutic effects in a mouse model.
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Gene therapy ameliorates spontaneous seizures associated with cortical neuron loss in a Cln2R207X mouse model.
J Clin Invest
June 2023
Department of Pediatrics.
Article Synopsis
- The study focuses on understanding the neurological and pathological changes in Cln2R207X mice, which model a mutation related to CLN2 disease, revealing progressive seizures and neuron loss over time.
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- Gene therapy using adeno-associated virus serotype 9 improved symptoms and pathology in the mice, highlighting the need for effective measures to evaluate therapies for CLN2 disease.
A mouse mutant deficient in both neuronal ceroid lipofuscinosis-associated proteins CLN3 and TPP1.
J Inherit Metab Dis
July 2023
Center for Advanced Biotechnology and Medicine, Rutgers University, Piscataway, New Jersey, USA.
Late-infantile neuronal ceroid lipofuscinosis (LINCL) and juvenile neuronal ceroid lipofuscinosis (JNCL) are inherited neurodegenerative diseases caused by mutations in the genes encoding lysosomal proteins tripeptidyl peptidase 1 (TPP1) and CLN3 protein, respectively. TPP1 is well-understood and, aided by animal models that accurately recapitulate the human disease, enzyme replacement therapy has been approved and other promising therapies are emerging. In contrast, there are no effective treatments for JNCL, partly because the function of the CLN3 protein remains unknown but also because animal models have attenuated disease and lack robust survival phenotypes.
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