γ-Secretase Gene Mutations in Familial Acne Inversa

Wang, Baoxi; Wei, Yang; Wen, Wen; Sun, Jing; Su, Binbin; Liu, Bo; Ma, Dong‐Lai; Liu, Dan; Wen, Yaran; Qu, Tao; Chen, Min; Sun, Miao; Shen, Yan; Zhang, Xue

doi:10.1126/science.1196284

Cited by 393 publications

(382 citation statements)

References 7 publications

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“…This unique role may be caused by γ-secretase-independent activities of PS that are more relevant to AD pathogenesis, by a higher intrinsic mutation rate of the human PSEN genes than of the other γ-secretase subunit genes, or by PS forming the catalytic core of the γ-secretase complex. Interestingly, recent human genetic studies identified large numbers of loss-of-function mutations in the Nct (17) and Pen-2 (3) genes that are associated with familial acne inversa or hidradenitis suppurativa (27)(28)(29)(30)(31). The lack of mutations identified in the Aph-1A and Aph-1B genes may reflect the genetic redundancy of the Aph-1 family; however, one mutation was reported in the PSEN1 gene despite the presence of its family member PSEN2 (27).…”

Section: Discussionmentioning

confidence: 99%

“…Interestingly, recent human genetic studies identified large numbers of loss-of-function mutations in the Nct (17) and Pen-2 (3) genes that are associated with familial acne inversa or hidradenitis suppurativa (27)(28)(29)(30)(31). The lack of mutations identified in the Aph-1A and Aph-1B genes may reflect the genetic redundancy of the Aph-1 family; however, one mutation was reported in the PSEN1 gene despite the presence of its family member PSEN2 (27). Because the identified mutations are mostly dominantly inherited loss-offunction mutations (nonsense or frame-shift), these findings indicate that partial loss of γ-secretase activity because of haploinsufficiency of these genes leads to acne inversa.…”

Section: Discussionmentioning

confidence: 99%

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Synaptic function of nicastrin in hippocampal neurons

Lee

Sharma

Südhof

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

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Synaptic dysfunction is widely thought to play a key role in the pathogenesis of Alzheimer's disease (AD). Presenilins, the major gene products involved in familial AD, are essential for short-and long-term synaptic plasticity in mature neurons as well as for the survival of cortical neurons during aging. Presenilin and nicastrin are both indispensable components of the γ-secretase complex, but it remains unknown whether presenilin regulates synaptic function in a γ-secretase-dependent or γ-secretase-independent manner and whether nicastrin plays similar roles in central synapses. In the current study, we address these questions using an electrophysiological approach to analyze nicastrin conditional knockout (cKO) mice in the hippocampal Schaffer collateral pathway. In these mice, we found that, even at 2 mo of age, deletion of nicastrin in excitatory neurons of the postnatal forebrain using Cre recombinase expressed under the control of the αCaMKII promoter led to deficits in presynaptic short-term plasticity including paired-pulse facilitation and frequency facilitation. Depletion of Ca 2+ in the endoplasmic reticulum mimics and occludes the presynaptic facilitation deficits in nicastrin cKO mice, suggesting that disrupted intracellular Ca 2+ homeostasis underlies the presynaptic deficits. In addition, NMDA receptor-mediated responses and long-term potentiation induced by theta-burst stimulation were decreased in nicastrin cKO mice at 3 mo but not at 2 mo of age. Together, these findings show that, similar to presenilins, nicastrin plays essential roles in the regulation of short-and longterm synaptic plasticity, highlighting the importance of γ-secretase in the function of mature synapses.A lzheimer's disease (AD) is an age-related neurodegenerative disorder characterized by progressive memory loss and cognitive decline. The majority of familial AD cases are caused by missense mutations in genes encoding presenilin 1 (PS1) and presenilin 2, which are crucial components of the γ-secretase complex responsible for intramembrane cleavages of type I membrane proteins such as Notch. In addition to presenilin (PS), nicastrin (Nct), presenilin enhancer 2 (Pen-2), and anterior pharynx defective 1 (Aph-1) also are required to form the active γ-secretase complex. Nct is a type-1 transmembrane glycoprotein that originally was identified by its ability to form high molecular weight complexes with PS (1). Nct −/− mice die by embryonic day 10.5 and exhibit patterning defects similar to those in embryos lacking PS or Notch (2-7).In the adult brain, genetic studies using conditional genetargeting approaches demonstrated that both PS and Nct are essential for long-term memory and age-dependent neuronal survival (8-12). These findings highlight the importance of γ-secretase in memory and neuronal survival (13), even though γ-secretase-independent activities of PS have been reported also (14). However, Notch is unlikely to be the key mediator of γ-secretase in the adult brain, because Notch1 and Notch2 conditional knockout (cKO)...

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Section: Discussionmentioning

confidence: 99%

Section: Discussionmentioning

confidence: 99%

Synaptic function of nicastrin in hippocampal neurons

Lee

Sharma

Südhof

et al. 2014

Proc. Natl. Acad. Sci. U.S.A.

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“…1C), does not follow the "fAD mutation reading frame preservation rule" since it causes a frameshift in exon 7 and truncation of the open reading frame. This mutation does not appear to cause fAD [89].…”

Section: Changes In the Non-␥-secretase Activity(ies) Of Psen Underlimentioning

confidence: 82%

“…Remarkably, these have never been found but mutations in PSEN1, NCSTN, and PSENEN have been found in another disease, inherited acne inversa [89] (also known as hidradenitis suppurativa). It is also very significant that the single known mutation in PSEN1 causing acne inversa, P242LfsX11 (Fig.…”

Section: Changes In the Non-␥-secretase Activity(ies) Of Psen Underlimentioning

confidence: 99%

Evidence For and Against a Pathogenic Role of Reduced γ-Secretase Activity in Familial Alzheimer’s Disease

Jayne

Newman

Verdile

et al. 2016

JAD

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Abstract. The majority of mutations causing familial Alzheimer's disease (fAD) have been found in the gene PRESENILIN1 (PSEN1) with additional mutations in the related gene PRESENILIN2 (PSEN2). The best characterized function of PRESE-NILIN (PSEN) proteins is in ␥-secretase enzyme activity. One substrate of ␥-secretase is encoded by the gene AMYLOID BETA A4 PRECURSOR PROTEIN (A␤PP/APP) that is a fAD mutation locus. A␤PP is the source of the amyloid-␤ (A␤) peptide enriched in the brains of people with fAD or the more common, late onset, sporadic form of AD, sAD. These observations have resulted in a focus on ␥-secretase activity and A␤ as we attempt to understand the molecular basis of AD pathology. In this paper we briefly review some of the history of research on ␥-secretase in AD. We then discuss the main ideas regarding the role of ␥-secretase and the PSEN genes in this disease. We examine the significance of the "fAD mutation reading frame preservation rule" that applies to PSEN1 and PSEN2 (and A␤PP) and look at alternative roles for A␤PP and A␤ in fAD. We present a case for an alternative interpretation of published data on the role of ␥-secretase activity and fAD-associated mutations in AD pathology. Evidence supports a "PSEN holoprotein multimer hypothesis" where PSEN

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“…A szövet-tani minták elemzésének másik szembetűnő lelete az acné-ből jól ismert follicularis hiperkeratinizáció/okklúzió volt, mely a folliculusok kitágulásához majd roncsolódásához vezet, így a baktériumokban gazdag törmelék a dermist infiltrálva annak gyulladását eredményezi felvetve, hogy a baktériumok és a különböző gyulladásos útvonalak éppúgy fontosak lehetnek ebben a betegségben is (1. ábra). A gyulladásban szerepet játszó sejteken az acnéban ismerthez hasonlóan, szintén fokozottan vannak jelen a Toll-like receptorok (TLR) (3), illetve a legfrissebb teljes szöveti mintákon elvégzett génexpressziós analízisek a TNF-α, IL-1 és a NOD-like receptor (NLRP) gének/útvonalak fokozott kifejeződését találták (4), melyek szerepét a genetikai vizsgálatok során azonosított egy nukleotidos polimorfizmusok (SNP) is alátámasztottak (5). Ezek alapján jogos az igény a lehetőségeinkhez mért tisztánlátásra, valamint hogy azonosítsuk azokat a faktorokat, melyek a HSben szerepet játszanak akár arra specifikusan, akár pedig egy általános gyulladás részeként.…”

Section: Acne Inversa: Miért Nem Acne éS Nem Is Hidradenitis?unclassified

Hidradenitis suppurativa: why isn’t it a form of acne?

Törőcsik¹,

Kinyó²,

Kovács³

et al. 2016

BVSZ

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ÖSSZEFOGLALÁSKey words: acne inversa, acne vulgaris, hidradenitis suppurativa 1. Patogenezis Acne inversa: miért nem acne és nem is hidradenitis?A betegség korábbi nevével, az acne inversával joggal leszámolva, hisz nem ott, nem akkor és nem úgy jelenik meg, mint a serdülőkori acne, sokak számára a jellegzetes lokalizációból adódóan egyértelmű patogenetikai tényező-ként az apokrin mirigyek foglalták el a központi helyet. A tünetek típusos intertriginózus megjelenése kétséget kizá-róan rámutat az adott terület jellegzetességeinek szerepére, melyek nagyban hozzájárulhatnak a betegség kialakulásá-hoz. Számos elmélet született már, részleges magyarázatot adva a hidradenitis suppurativa (HS) patogenezisére, mint például a fokozott mechanikai irritáció szerepe, vagy a terület eltérő higiénés jellemzői, immunológiai sajátossá-gai, melyben a fokozott nedvesség kaphat központi szerepet. Ugyanakkor a szövettani vizsgálatok alapján az apokrin mirigyek csak az előrehaladott formákban voltak érint-ve és akkor is sokkal inkább a végpontjai mint sem aktív szereplői voltak a patológiai folyamatoknak (1).Az utóbbi évek kutatásai a faggyúmirigyek szerepére is ráirányították a figyelmet, melyhez nagyban hozzájárultak azok a szövettani leletek, melyek a faggyúmirigyek elpusztulását már a HS kezdeti stádiumában leírták (2). A szövet-tani minták elemzésének másik szembetűnő lelete az acné-ből jól ismert follicularis hiperkeratinizáció/okklúzió volt, mely a folliculusok kitágulásához majd roncsolódásához vezet, így a baktériumokban gazdag törmelék a dermist infiltrálva annak gyulladását eredményezi felvetve, hogy a baktériumok és a különböző gyulladásos útvonalak éppúgy fontosak lehetnek ebben a betegségben is (1. ábra). A gyulladásban szerepet játszó sejteken az acnéban ismerthez hasonlóan, szintén fokozottan vannak jelen a Toll-like 129

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γ-Secretase Gene Mutations in Familial Acne Inversa

Cited by 393 publications

References 7 publications

Synaptic function of nicastrin in hippocampal neurons

Synaptic function of nicastrin in hippocampal neurons

Evidence For and Against a Pathogenic Role of Reduced γ-Secretase Activity in Familial Alzheimer’s Disease

Hidradenitis suppurativa: why isn’t it a form of acne?

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