Updated: Data upload for Tagless LysoIP method for molecular profiling of lysosomal content in clinical samples

Updated: Data upload for Tagless LysoIP method for molecular profiling of lysosomal content in clinical samples

Lysosomes are implicated in a wide spectrum of human diseases including monogenic lysosomal storage disorders (LSDs), age-associated neurodegeneration and cancer. Profiling lysosomal content using tag-based lysosomal immunoisolation (LysoTagIP) in cell and animal models allowed major discoveries in...

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Hauptverfasser: Saarela, Daniel, Lis, Pawel, Gomes, Sara, Nirujogi, Raja, Dong, Wentao, Rawat, Eshaan, Glendinning, Sophie, Zeneviciute, Karolina, Bagnoli, Enrico, Fasimoye, Rotimi, Lin, Cindy, Nyame, Kwamina, Boros, Fanni A., Zunke, Frederike, Lamoliatte, Frederic, Elshani, Sadik, Jaconelli, Matthew, Jans, Judith, Huisman, Margriet A., Posern, Christian, Westermann, Lena, Schulz, Angela, van Hasselt, Peter, Alessi, Dario, Abu-Remaileh, Monther, Sammler, Esther
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creator Saarela, Daniel
Lis, Pawel
Gomes, Sara
Nirujogi, Raja
Dong, Wentao
Rawat, Eshaan
Glendinning, Sophie
Zeneviciute, Karolina
Bagnoli, Enrico
Fasimoye, Rotimi
Lin, Cindy
Nyame, Kwamina
Boros, Fanni A.
Zunke, Frederike
Lamoliatte, Frederic
Elshani, Sadik
Jaconelli, Matthew
Jans, Judith
Huisman, Margriet A.
Posern, Christian
Westermann, Lena
Schulz, Angela
van Hasselt, Peter
Alessi, Dario
Abu-Remaileh, Monther
Sammler, Esther
description Lysosomes are implicated in a wide spectrum of human diseases including monogenic lysosomal storage disorders (LSDs), age-associated neurodegeneration and cancer. Profiling lysosomal content using tag-based lysosomal immunoisolation (LysoTagIP) in cell and animal models allowed major discoveries in the field, however, studying lysosomal dysfunction in human patients remains a challenge. Here, we report the development of the tagless LysoIP method to enable rapid enrichment of lysosomes, via immunoisolation, using the endogenous integral lysosomal membrane protein TMEM192, directly from clinical samples and human cell lines. Isolated lysosomes are intact and suitable for subsequent multimodal omics analyses. To validate the utility of our approach, we employed the tagless LysoIP to enrich lysosomes from peripheral blood mononuclear cells (PBMCs) derived from fresh blood of patients with CLN3 Batten disease, a neurodegenerative LSD. Metabolic profiling of isolated lysosomes showed massive accumulation of glycerophosphodiesters (GPDs) in patients’ lysosomes. Interestingly, a patient with a milder phenotype and genotype, displayed lower accumulation of lysosomal GPDs, consistent with their potential role as disease biomarkers. Altogether, the tagless LysoIP provides a framework to study native lysosomes from patient samples, identify novel biomarkers and discover human-relevant disease mechanisms.
doi_str_mv 10.5281/zenodo.11085341
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Profiling lysosomal content using tag-based lysosomal immunoisolation (LysoTagIP) in cell and animal models allowed major discoveries in the field, however, studying lysosomal dysfunction in human patients remains a challenge. Here, we report the development of the tagless LysoIP method to enable rapid enrichment of lysosomes, via immunoisolation, using the endogenous integral lysosomal membrane protein TMEM192, directly from clinical samples and human cell lines. Isolated lysosomes are intact and suitable for subsequent multimodal omics analyses. To validate the utility of our approach, we employed the tagless LysoIP to enrich lysosomes from peripheral blood mononuclear cells (PBMCs) derived from fresh blood of patients with CLN3 Batten disease, a neurodegenerative LSD. Metabolic profiling of isolated lysosomes showed massive accumulation of glycerophosphodiesters (GPDs) in patients’ lysosomes. Interestingly, a patient with a milder phenotype and genotype, displayed lower accumulation of lysosomal GPDs, consistent with their potential role as disease biomarkers. 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title Updated: Data upload for Tagless LysoIP method for molecular profiling of lysosomal content in clinical samples
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