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Prion disease

KEGG ID: hsa05020

中文名称

ATR 在复制压力激活

通路描述

由 DNA 损伤或停滞的复制叉引起的基因毒性压力可导致基因组不稳定性。为了防止这种不稳定性,受基因毒性胁迫的细胞会激活检查点因子以阻止或减缓细胞周期进展。受影响的通路包括 DNA 复制通过减少复制起始点的激活,以及有丝分裂通过抑制 Cyclin 依赖性激酶(Cdks)的激活。参与停滞复制叉响应的关键因子是 ATM-和 rad3-related(ATR)激酶,它是磷脂酰肌醇 3-激酶相关激酶(PIKK)家族的一员。ATR 及其结合伙伴 ATRIP 不直接响应 DNA 中的特定损伤,而是通过结合由 RPA 结合的持续单链 DNA 来间接感知复制叉停滞。这些结构例如由复制解旋酶与 DNA 聚合酶分离时形成,当聚合酶遇到阻断 DNA 合成的 DNA 损伤时。与磷酸化下游转导激酶 Chk1 和肿瘤抑制因子 p53 一样,激活的 ATR 会修改许多调节细胞周期进展或 DNA 损伤修复的因子。持续的 ssDNA 还会刺激招募 RFC 样 Rad17-Rfc2-5 替代夹子加载复合物,随后将 Rad9-Hus1-Rad1 复合物加载到 DNA 上。后者'9-1-1'复合物有助于 Chk1 与停滞的复制叉结合,其中 Chk1 由 ATR 磷酸化并因此激活。一旦激活,Chk1 可以磷酸化其他底物,包括 Cdc25 家族磷酸酶(Cdc25A、Cdc25B 和 Cdc25C)。这些酶催化从 Cyclin 依赖性激酶(Cdks)上移除抑制性磷酸基团,从而允许其激活。特别是,Cdc25A 主要在 G1/S 转换中脱磷酸化 Cdk2 在 Thr 14 和 Tyr 15,从而正调控 Cdk2-cyclin E 复合物以进入 S 期。Cdc25A 还具有有丝分裂功能。Chk1 对 Cdc25A 在 Ser125 处的磷酸化导致 Cdc25A 泛素化和降解,从而抑制 DNA 复制起始点的激活。相比之下,Cdc25B 和 Cdc25C 通过脱磷酸化和激活 Cdk1-cyclin B 复合物调节有丝分裂的开始。在复制压力下,Chk1 磷酸化 Cdc25B 和 Cdc25C,导致 Cdc25B/C 复合物与 14-3-3 蛋白结合。由于这些复合物被胞质隔离,它们无法激活核 Cdk1-cyclin B 复合物以进入有丝分裂。这些事件在图中概述。与 RPA 结合的持续单链 DNA 结合 claspin(A)和 ATR:ATRIP(B),导致 claspin 磷酸化(C)。同时,相同的单链 DNA:RPA 复合物结合 RAD17:RFC(D),使 RAD9:HUS1:RAD1(9-1-1)复合物加载到 DNA 上(E)。随后,这些蛋白质复合物可以反复结合(F)和磷酸化(G)CHK1,激活多个 CHK1 副本。
英文描述
Prion diseases, also termed transmissible spongiform encephalopathies (TSEs), are a group of fatal neurodegenerative diseases that affect humans and a number of other animal species. The etiology of these diseases is thought to be associated with the conversion of a normal protein, PrPC, into an infectious, pathogenic form, PrPSc. The conversion is induced by prion infections (for example, variant Creutzfeldt-Jakob disease (vCJD), iatrogenic CJD, Kuru), mutations (familial CJD, Gerstmann-Straussler-Scheinker syndrome, fatal familial insomnia (FFI)) or unknown factors (sporadic CJD (sCJD)), and is thought to occur after PrPC has reached the plasma membrane or is re-internalized for degradation. The PrPSc form shows greater protease resistance than PrPC and accumulates in affected individuals, often in the form of extracellular plaques. Pathways that may lead to neuronal death comprise oxidative stress, regulated activation of complement, ubiquitin-proteasome and endosomal-lysosomal systems, synaptic alterations and dendritic atrophy, corticosteroid response, and endoplasmic reticulum stress. In addition, the conformational transition could lead to the lost of a beneficial activity of the natively folded protein, PrPC.

所含基因

275 个基因
ADRM1 APAF1 ATF2 ATF4 ATF6B ATP5F1A ATP5F1B ATP5F1C ATP5F1D ATP5F1E ATP5MC1 ATP5MC2 ATP5MC3 ATP5PB ATP5PD ATP5PF ATP5PO ATP6 ATP8 BAD BAX C1QA C1QB C1QC C5 C6 C7 C8A C8B C8G C9 CACNA1B CACNA1C CACNA1D CACNA1F CACNA1S CASP12 CASP3 CASP9 CAV1 CAV2 CAV3 CCL5 COX1 COX2 COX3 COX4I1 COX4I2 COX5A COX5B COX6A1 COX6A2 COX6B1 COX6B2 COX6C COX7A1 COX7A2 COX7A2L COX7B COX7B2 COX7C COX8A COX8C COXFA4 COXFA4L2 CREB1 CREB3 CREB3L1 CREB3L2 CREB3L3 CREB3L4 CREB5 CSNK2A1 CSNK2A2 CSNK2A3 CSNK2B CYBA CYBB CYC1 CYCS CYTB DDIT3 EGR1 EIF2AK3 EIF2S1 FYN GRIN1 GRIN2A GRIN2B GRIN2C GRIN2D GRIN3A GRIN3B GSK3B HSPA1A HSPA1B HSPA1L HSPA5 HSPA6 HSPA8 IL1A IL1B IL6 ITPR1 ITPR2 ITPR3 KIF5A KIF5B KIF5C KLC1 KLC2 KLC3 KLC4 LAMC1 LOC107984365 MAPK1 MAPK10 MAPK11 MAPK12 MAPK13 MAPK14 MAPK3 MAPK8 MAPK9 MCU NCAM1 NCAM2 NCF1 NCF2 NCF4 ND1 ND2 ND3 ND4 ND4L ND5 ND6 NDUFA1 NDUFA10 NDUFA11 NDUFA12 NDUFA13 NDUFA2 NDUFA3 NDUFA5 NDUFA6 NDUFA7 NDUFA8 NDUFA9 NDUFAB1 NDUFB1 NDUFB10 NDUFB11 NDUFB2 NDUFB3 NDUFB4 NDUFB5 NDUFB6 NDUFB7 NDUFB8 NDUFB9 NDUFC1 NDUFC2 NDUFC2-KCTD14 NDUFS1 NDUFS2 NDUFS3 NDUFS4 NDUFS5 NDUFS6 NDUFS7 NDUFS8 NDUFV1 NDUFV2 NDUFV3 NOTCH1 P3R3URF-PIK3R3 PIK3CA PIK3CB PIK3CD PIK3R1 PIK3R2 PIK3R3 PPIF PPP3CA PPP3CB PPP3CC PPP3R1 PPP3R2 PRKACA PRKACB PRKACG PRKCD PRNP PSMA1 PSMA2 PSMA3 PSMA4 PSMA5 PSMA6 PSMA7 PSMA8 PSMB1 PSMB2 PSMB3 PSMB4 PSMB5 PSMB6 PSMB7 PSMC1 PSMC2 PSMC3 PSMC4 PSMC5 PSMC6 PSMD1 PSMD11 PSMD12 PSMD13 PSMD14 PSMD2 PSMD3 PSMD4 PSMD6 PSMD7 PSMD8 PSMD9 RAC1 RAC2 RYR1 RYR2 RYR3 SDHA SDHB SDHC SDHD SEM1 SLC25A31 SLC25A4 SLC25A5 SLC25A6 SOD1 STIP1 TNF TUBA1A TUBA1B TUBA1C TUBA3C TUBA3D TUBA3E TUBA4A TUBA8 TUBAL3 TUBB TUBB1 TUBB2A TUBB2B TUBB3 TUBB4A TUBB4B TUBB6 TUBB8 TUBB8B UQCR10 UQCR11 UQCRB UQCRC1 UQCRC2 UQCRFS1 UQCRH UQCRHL UQCRQ VDAC1 VDAC2 VDAC3