Modulation of BAG3 Expression and Proteasomal Activity by sAPPα Does Not Require Membrane-Tethered Holo-APP

Maintenance of intracellular proteostasis is essential for neuronal function, and emerging data support the view that disturbed proteostasis plays an important role in brain aging and the pathogenesis of age-related neurodegenerative disorders such as Alzheimer’s disease (AD). sAPPalpha (sAPPα), the...

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Veröffentlicht in:	Molecular neurobiology 2016-11, Vol.53 (9), p.5985-5994
Hauptverfasser:	Kundu, Arpita, Milosch, Nelli, Antonietti, Patrick, Baumkötter, Frederik, Zymny, Andreas, Müller, Ulrike C., Kins, Stefan, Hajieva, Parvana, Behl, Christian, Kögel, Donat
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Schlagworte:	Adaptor Proteins, Signal Transducing - metabolism Amyloid beta-Protein Precursor - metabolism Animals Apoptosis - drug effects Apoptosis Regulatory Proteins - metabolism Biomedical and Life Sciences Biomedicine Caspases - metabolism Cell Biology Cell Line, Tumor Cell Membrane - drug effects Cell Membrane - metabolism Humans Leupeptins - pharmacology Mice, Inbred C57BL Neurobiology Neurology Neurosciences Peptide Fragments - metabolism Proteasome Endopeptidase Complex - metabolism Recombinant Proteins - pharmacology
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container_issue	9
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container_title	Molecular neurobiology
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creator	Kundu, Arpita Milosch, Nelli Antonietti, Patrick Baumkötter, Frederik Zymny, Andreas Müller, Ulrike C. Kins, Stefan Hajieva, Parvana Behl, Christian Kögel, Donat
description	Maintenance of intracellular proteostasis is essential for neuronal function, and emerging data support the view that disturbed proteostasis plays an important role in brain aging and the pathogenesis of age-related neurodegenerative disorders such as Alzheimer’s disease (AD). sAPPalpha (sAPPα), the extracellularly secreted N-terminal alpha secretase cleavage product of the amyloid precursor protein (APP), has an established function in neuroprotection. Recently, we provided evidence that membrane-bound holo-APP functionally cooperates with sAPPα to mediate neuroprotection via activation of the Akt survival signaling pathway and sAPPα directly affects proteostasis. Here, we demonstrate that in addition to its anti-apoptotic function, sAPPα has effects on neuronal proteostasis under conditions of proteasomal stress. In particular, recombinant sAPPα significantly suppressed MG132-triggered expression of the co-chaperone BAG3 and aggresome formation, and it partially rescued proteasomal activity in a dose-dependent manner in SH-SY5Y neuroblastoma cells. In analogy, sAPPα was able to inhibit MG132-induced BAG3 expression in primary hippocampal neurons. Strikingly, these sAPPα-induced changes were unaltered in APP-depleted SH-SY5Y cells and APP-deficient neurons, demonstrating that holo-APP is not required for this particular function of sAPPα. Importantly, recombinant sAPPbeta (sAPPβ) failed to modulate BAG3 expression and proteostasis in APP-proficient wild-type (wt) cells, indicating that these biological effects are highly selective for sAPPα. In conclusion, we demonstrate that modulation of proteostasis is a distinct biological function of sAPPα and does not require surface-bound holo-APP. Our data shed new light on the physiological functions of APP and the interplay between APP processing and proteostasis during brain aging.
doi_str_mv	10.1007/s12035-015-9501-y
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Recently, we provided evidence that membrane-bound holo-APP functionally cooperates with sAPPα to mediate neuroprotection via activation of the Akt survival signaling pathway and sAPPα directly affects proteostasis. Here, we demonstrate that in addition to its anti-apoptotic function, sAPPα has effects on neuronal proteostasis under conditions of proteasomal stress. In particular, recombinant sAPPα significantly suppressed MG132-triggered expression of the co-chaperone BAG3 and aggresome formation, and it partially rescued proteasomal activity in a dose-dependent manner in SH-SY5Y neuroblastoma cells. In analogy, sAPPα was able to inhibit MG132-induced BAG3 expression in primary hippocampal neurons. Strikingly, these sAPPα-induced changes were unaltered in APP-depleted SH-SY5Y cells and APP-deficient neurons, demonstrating that holo-APP is not required for this particular function of sAPPα. Importantly, recombinant sAPPbeta (sAPPβ) failed to modulate BAG3 expression and proteostasis in APP-proficient wild-type (wt) cells, indicating that these biological effects are highly selective for sAPPα. In conclusion, we demonstrate that modulation of proteostasis is a distinct biological function of sAPPα and does not require surface-bound holo-APP. 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Recently, we provided evidence that membrane-bound holo-APP functionally cooperates with sAPPα to mediate neuroprotection via activation of the Akt survival signaling pathway and sAPPα directly affects proteostasis. Here, we demonstrate that in addition to its anti-apoptotic function, sAPPα has effects on neuronal proteostasis under conditions of proteasomal stress. In particular, recombinant sAPPα significantly suppressed MG132-triggered expression of the co-chaperone BAG3 and aggresome formation, and it partially rescued proteasomal activity in a dose-dependent manner in SH-SY5Y neuroblastoma cells. In analogy, sAPPα was able to inhibit MG132-induced BAG3 expression in primary hippocampal neurons. Strikingly, these sAPPα-induced changes were unaltered in APP-depleted SH-SY5Y cells and APP-deficient neurons, demonstrating that holo-APP is not required for this particular function of sAPPα. Importantly, recombinant sAPPbeta (sAPPβ) failed to modulate BAG3 expression and proteostasis in APP-proficient wild-type (wt) cells, indicating that these biological effects are highly selective for sAPPα. In conclusion, we demonstrate that modulation of proteostasis is a distinct biological function of sAPPα and does not require surface-bound holo-APP. 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Recently, we provided evidence that membrane-bound holo-APP functionally cooperates with sAPPα to mediate neuroprotection via activation of the Akt survival signaling pathway and sAPPα directly affects proteostasis. Here, we demonstrate that in addition to its anti-apoptotic function, sAPPα has effects on neuronal proteostasis under conditions of proteasomal stress. In particular, recombinant sAPPα significantly suppressed MG132-triggered expression of the co-chaperone BAG3 and aggresome formation, and it partially rescued proteasomal activity in a dose-dependent manner in SH-SY5Y neuroblastoma cells. In analogy, sAPPα was able to inhibit MG132-induced BAG3 expression in primary hippocampal neurons. Strikingly, these sAPPα-induced changes were unaltered in APP-depleted SH-SY5Y cells and APP-deficient neurons, demonstrating that holo-APP is not required for this particular function of sAPPα. Importantly, recombinant sAPPbeta (sAPPβ) failed to modulate BAG3 expression and proteostasis in APP-proficient wild-type (wt) cells, indicating that these biological effects are highly selective for sAPPα. In conclusion, we demonstrate that modulation of proteostasis is a distinct biological function of sAPPα and does not require surface-bound holo-APP. Our data shed new light on the physiological functions of APP and the interplay between APP processing and proteostasis during brain aging.</abstract><cop>New York</cop><pub>Springer US</pub><pmid>26526841</pmid><doi>10.1007/s12035-015-9501-y</doi><tpages>10</tpages></addata></record>
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subjects	Adaptor Proteins, Signal Transducing - metabolism Amyloid beta-Protein Precursor - metabolism Animals Apoptosis - drug effects Apoptosis Regulatory Proteins - metabolism Biomedical and Life Sciences Biomedicine Caspases - metabolism Cell Biology Cell Line, Tumor Cell Membrane - drug effects Cell Membrane - metabolism Humans Leupeptins - pharmacology Mice, Inbred C57BL Neurobiology Neurology Neurosciences Peptide Fragments - metabolism Proteasome Endopeptidase Complex - metabolism Recombinant Proteins - pharmacology
title	Modulation of BAG3 Expression and Proteasomal Activity by sAPPα Does Not Require Membrane-Tethered Holo-APP
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