Expression of Ripk1 and DAM genes correlates with severity and progression of Krabbe disease

Expression of Ripk1 and DAM genes correlates with severity and progression of Krabbe disease

Abstract Krabbe disease, an inherited leukodystrophy, is a sphingolipidosis caused by deficiency of β-galactocerebrosidase: it is characterized by myelin loss, and pathological activation of macrophage/microglia and astrocytes. To define driving pathogenic factors, we explored the expression reperto...

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Published in:Human molecular genetics Vol. 30; no. 22; pp. 2082 - 2099
Main Authors: Cachón-González, María B, Wang, Susan, Cox, Timothy M
Format: Journal Article
Language:English
Published: England Oxford University Press 01-11-2021
Subjects:
Animals
Autophagosomes
Biomarkers
Disease Models, Animal
Disease Progression
Disease Susceptibility
Gene Expression
Gene Knockdown Techniques
Humans
Leukodystrophy, Globoid Cell - diagnosis
Leukodystrophy, Globoid Cell - genetics
Mice
Microglia - metabolism
Neuroinflammatory Diseases - etiology
Neuroinflammatory Diseases - metabolism
Neuroinflammatory Diseases - pathology
Protein Transport
Receptor-Interacting Protein Serine-Threonine Kinases - genetics
Receptor-Interacting Protein Serine-Threonine Kinases - metabolism
Severity of Illness Index
Transcriptome
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Summary:Abstract Krabbe disease, an inherited leukodystrophy, is a sphingolipidosis caused by deficiency of β-galactocerebrosidase: it is characterized by myelin loss, and pathological activation of macrophage/microglia and astrocytes. To define driving pathogenic factors, we explored the expression repertoire of candidate neuroinflammatory genes: upregulation of receptor interacting protein kinase 1 (Ripk1) and disease-associated microglia (DAM) genes, including Cst7 and Ch25h, correlated with severity of Krabbe disease genetically modelled in the twitcher mouse. Upregulation of Ripk1 in Iba1/Mac2-positive microglia/macrophage associated with the pathognomic hypertrophic/globoid phenotype of this disease. Widespread accumulation of ubiquitinin1 in white and grey matter co-localised with p62. In Sandhoff disease, another sphingolipid disorder, neuroinflammation, accumulation of p62 and increased Ripk1 expression was observed. The upregulated DAM genes and macrophage/microglia expression of Ripk1 in the authentic model of Krabbe disease strongly resemble those reported in Alzheimer disease associating with disturbed autophagosomal/lysosomal homeostasis. Activation of this shared molecular repertoire, suggests the potential for therapeutic interdiction at a common activation step, irrespective of proximal causation. To clarify the role of Ripk1 in the pathogenesis of Krabbe disease, we first explored the contribution of its kinase function, by intercrossing twitcher and the K45A kinase-dead Ripk1 mouse and breeding to homozygosity. Genetic ablation of Ripk1 kinase activity neither altered the neuropathological features nor the survival of twitcher mice. We conclude that Ripk1 kinase-dependent inflammatory and degenerative capabilities play no instrumental role in Krabbe disease; however, putative kinase-independent functions of Ripk1 remain formally to be explored in its molecular pathogenesis.
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ISSN:0964-6906
1460-2083
DOI:10.1093/hmg/ddab159