Kanta Yanagida scite author profile

Deciphering the mechanism by which the relative Aβ42(43) to total Aβ ratio is regulated is central to understanding Alzheimer disease (AD) etiology; however, the mechanisms underlying changes in the Aβ42(43) ratio caused by familial mutations and γ-secretase modulators (GSMs) are unclear. Here, we show in vitro and in living cells that presenilin (PS)/γ-secretase cleaves Aβ42 into Aβ38, and Aβ43 into Aβ40 or Aβ38. Approximately 40% of Aβ38 is derived from Aβ43. Aβ42(43) cleavage is involved in the regulation of the Aβ42(43) ratio in living cells. GSMs increase the cleavage of PS/γ-secretase-bound Aβ42 (increase k(cat)) and slow its dissociation from the enzyme (decrease k(b)), whereas PS1 mutants and inverse GSMs show the opposite effects. Therefore, we suggest a concept to describe the Aβ42(43) production process and propose how GSMs act, and we suggest that a loss of PS/γ-secretase function to cleave Aβ42(43) may initiate AD and might represent a therapeutic target.

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Regulation of Notch Signaling by Dynamic Changes in the Precision of S3 Cleavage of Notch-1

Tagami

Okochi

Yanagida

et al. 2008

Molecular and Cellular Biology

109

129

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Intramembrane proteolysis by presenilin-dependent ␥-secretase produces the Notch intracellular cytoplasmic domain (NCID) and Alzheimer disease-associated amyloid-␤. Here, we show that upon Notch signaling the intracellular domain of Notch-1 is cleaved into two distinct types of NICD species due to diversity in the site of S3 cleavage. Consistent with the N-end rule, the S3-V cleavage produces stable NICD with Val at the N terminus, whereas the S3-S/S3-L cleavage generates unstable NICD with Ser/Leu at the N terminus. Moreover, intracellular Notch signal transmission with unstable NICDs is much weaker than that with stable NICD. Importantly, the extent of endocytosis in target cells affects the relative production ratio of the two types of NICD, which changes in parallel with Notch signaling. Surprisingly, substantial amounts of unstable NICD species are generated from the Val3Gly and the Lys3Arg mutants, which have been reported to decrease S3 cleavage efficiency in cultured cells. Thus, we suggest that the existence of two distinct types of NICD points to a novel aspect of the intracellular signaling and that changes in the precision of S3 cleavage play an important role in the process of conversion from extracellular to intracellular Notch signaling.

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Renal function is associated with blood neurofilament light chain level in older adults

Akamine

Marutani

Kanayama

et al. 2020

Sci Rep

137

112

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Neurofilament light chain (NfL) is a novel biomarker of neurodegenerative diseases. It is detectable in the peripheral blood, allowing low-invasive assessment of early signs of neurodegeneration. The level of NfL gradually increases with age; however, what other factors affect it remains unclear. The present study examined the association between blood NfL level and renal function among healthy participants undergoing a health check (n = 43, serum NfL) and patients with diabetes mellitus (n = 188, plasma NfL). All participants were 60 years of age or older; none were diagnosed with dementia. In each group, levels of blood NfL and serum creatinine significantly correlated (coefficient r = 0.50, 0.56). These associations remained statistically significant even after adjustment for age, sex, and body mass index. These findings indicate that blood NfL level might be partially affected by renal function. We recommend measuring renal function for a more precise evaluation of neuroaxonal damage, in particular, among older adults.

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The 28‐amino acid form of an APLP1‐derived Aβ‐like peptide is a surrogate marker for Aβ42 production in the central nervous system

et al. 2009

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Surrogate markers for the Alzheimer disease (AD)-associated 42-amino acid form of amyloid-β (Aβ42) have been sought because they may aid in the diagnosis of AD and for clarification of disease pathogenesis. Here, we demonstrate that human cerebrospinal fluid (CSF) contains three APLP1-derived Aβ-like peptides (APL1β) that are generated by β- and γ-cleavages at a concentration of ∼4.5 nM. These novel peptides, APL1β25, APL1β27 and APL1β28, were not deposited in AD brains. Interestingly, most γ-secretase modulators (GSMs) and familial AD-associated presenilin1 mutants that up-regulate the relative production of Aβ42 cause a parallel increase in the production of APL1β28 in cultured cells. Moreover, in CSF from patients with pathological mutations in presenilin1 gene, the relative APL1β28 levels are higher than in non-AD controls, while the relative Aβ42 levels are unchanged or lower. Most strikingly, the relative APL1β28 levels are higher in CSF from sporadic AD patients (regardless of whether they are at mild cognitive impairment or AD stage), than those of non-AD controls. Based on these results, we propose the relative level of APL1β28 in the CSF as a candidate surrogate marker for the relative level of Aβ42 production in the brain.

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Presenilin-Dependent γ-Secretase on Plasma Membrane and Endosomes Is Functionally Distinct

et al. 2006

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The presenilin (PS)/gamma-secretase complex, which contains not only PS but also Aph-1, PEN-2, and nicastrin, mediates proteolysis of the transmembrane domain of beta-amyloid protein precursor (betaAPP). Intramembrane proteolysis occurs at the interface between the membrane and cytosol (epsilon-site) and near the middle of the transmembrane domain (gamma-site), generating the betaAPP intracellular domain (AICD) and Alzheimer disease-associated Abeta, respectively. Both cleavage sites exhibit some diversity. Changes in the precision of gamma-cleavage, which potentially results in secretion of pathogenic Abeta42, have been intensively studied, while those of epsilon-cleavage have not. Although a number of PS-associated factors have been identified, it is unclear whether any of them physiologically regulate the precision of cleavage by PS/gamma-secretase. Moreover, there is currently no clear evidence of whether PS/gamma-secretase function differs according to the subcellular site. Here, we show that endocytosis affects the precision of PS-dependent epsilon-cleavage in cell culture. Relative production of longer AICDepsilon49 increases on the plasma membrane, whereas that of shorter AICDepsilon51 increases on endosomes; however, this occurs without a concomitant major change in the precision of cleavage at gamma-sites. Moreover, very similar changes in the precision of epsilon-cleavage are induced by alteration of the pH. Our findings demonstrate that the precision of epsilon-cleavage by PS/gamma-secretase changes depending upon the conditions and the subcellular location. These results suggest that the precision of cleavage by the PS/gamma-secretase complex may be physiologically regulated by the subcellular location and conditions.

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Kanta Yanagida

γ-Secretase Modulators and Presenilin 1 Mutants Act Differently on Presenilin/γ-Secretase Function to Cleave Aβ42 and Aβ43

Regulation of Notch Signaling by Dynamic Changes in the Precision of S3 Cleavage of Notch-1

Renal function is associated with blood neurofilament light chain level in older adults

The 28‐amino acid form of an APLP1‐derived Aβ‐like peptide is a surrogate marker for Aβ42 production in the central nervous system

Presenilin-Dependent γ-Secretase on Plasma Membrane and Endosomes Is Functionally Distinct

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