Beta-secretase 1

1FKN, 1M4H, 1PY1, 1SGZ, 1TQF, 1UJJ, 1UJK, 1W50, 1W51, 1XN2, 1XN3, 1XS7, 1YM2, 1YM4, 2B8L, 2B8V, 2F3E, 2F3F, 2FDP, 2G94, 2HIZ, 2HM1, 2IQG, 2IRZ, 2IS0, 2NTR, 2OAH, 2OF0, 2OHK, 2OHL, 2OHM, 2OHN, 2OHP, 2OHQ, 2OHR, 2OHS, 2OHT, 2OHU, 2P4J, 2P83, 2P8H, 2PH6, 2PH8, 2Q11, 2Q15, 2QK5, 2QMD, 2QMF, 2QMG, 2QP8, 2QU2, 2QU3, 2QZK, 2QZL, 2VA5, 2VA6, 2VA7, 2VIE, 2VIJ, 2VIY, 2VIZ, 2VJ6, 2VJ7, 2VJ9, 2VKM, 2VNM, 2VNN, 2WEZ, 2WF0, 2WF1, 2WF2, 2WF3, 2WF4, 2WJO, 2XFI, 2XFJ, 2XFK, 2ZDZ, 2ZE1, 2ZHR, 2ZHS, 2ZHT, 2ZHU, 2ZHV, 2ZJH, 2ZJI, 2ZJJ, 2ZJK, 2ZJL, 2ZJM, 2ZJN, 3BRA, 3BUF, 3BUG, 3BUH, 3CIB, 3CIC, 3CID, 3CKP, 3CKR, 3DM6, 3DUY, 3DV1, 3DV5, 3EXO, 3FKT, 3H0B, 3HVG, 3HW1, 3I25, 3IGB, 3IN3, 3IN4, 3IND, 3INE, 3INF, 3INH, 3IVH, 3IVI, 3IXJ, 3IXK, 3KYR, 3L38, 3L3A, 3LHG, 3LNK, 3MSJ, 3MSK, 3MSL, 3N4L, 3NSH, 3OOZ, 3QI1, 3R1G, 3RSV, 3RTM, 3RVI, 3S2O, 3S7L, 3S7M, 3TPJ, 3TPL, 3TPP, 3TPR, 3UDH, 3UDJ, 3UDK, 3UDM, 3UDN, 3UDP, 3UDQ, 3UDR, 3UDY, 3UFL, 3UQP, 3UQR, 3UQU, 3UQW, 3UQX, 3VEU, 3VF3, 3VG1, 3VV6, 3VV7, 3ZMG, 3ZOV, 4ACU, 4ACX, 4AZY, 4B00, 4B05, 4B0Q, 4B1C, 4B1D, 4B1E, 4B70, 4B72, 4B77, 4B78, 4BEK, 4BFD, 4D83, 4D85, 4D88, 4D89, 4D8C, 4DH6, 4DI2, 4DJU, 4DJV, 4DJW, 4DJX, 4DJY, 4DPF, 4DPI, 4DUS, 4DV9, 4DVF, 4EWO, 4EXG, 4FCO, 4FGX, 4FM7, 4FM8, 4FRI, 4FRJ, 4FRK, 4FRS, 4FS4, 4FSE, 4FSL, 4GMI, 4H1E, 4H3F, 4H3G, 4H3I, 4H3J, 4HA5, 4HZT, 4I0E, 4I0F, 4I0G, 4I0H, 4I0J, 4I0Z, 4I10, 4I11, 4I12, 4I1C, 4J0T, 4J0V, 4J0Y, 4J0Z, 4J17, 4J1C, 4J1E, 4J1F, 4J1H, 4J1I, 4J1K, 4JOO, 4JP9, 4JPC, 4JPE, 4K8S, 4K9H, 4KE0, 4KE1, 3K5C, 3K5D, 3K5F, 3K5G, 3KMX, 3KMY, 3KN0, 3L58, 3L59, 3L5B, 3L5C, 3L5D, 3L5E, 3L5F, 3LPI, 3LPJ, 3LPK, 3OHF, 3OHH, 3PI5, 3QBH, 3R2F, 3RSX, 3RTH, 3RTN, 3RU1, 3SKF, 3SKG, 3U6A, 4GID, 4LXA, 4LXK, 4LXM, 3WB4, 3WB5, 4I0D, 4I0I, 4IVS, 4IVT, 4J0P, 4L7G, 4L7H, 4L7J, 4LC7, 4N00, 4PZW, 4PZX, 4R5N, 4R8Y, 4R91, 4R92, 4R93, 4R95, 4RCD, 4RCE, 4RCF, 4RRN, 4RRO, 4RRS, 4WY1, 4WY6, 4X2L, 4X7I, 4XKX, 4XXS, 4YBI, 4TRW, 4TRZ, 4ZSM, 4ZSP, 4ZSQ, 4ZSR, 4TRY, 4ZPF, 4ZPG, 5CLM, 5F01, 5EZZ, 5DQC, 5F00, 5EZX, 5HE7, 5HD0, 5HDX, 5HDV, 5HE5, 5HE4, 5HDU, 5HDZ, 5I3X, 5I3W, 5I3V, 5IE1, 5I3Y, 5ENK2362123821ENSG00000186318ENSMUSG00000032086P56817P56818NM_138972NM_001145947NM_011792NP_620429NP_036236.1NP_001139419NP_035922Beta-secretase 1 (BACE1), also known as beta-site amyloid precursor protein cleaving enzyme 1, beta-site APP cleaving enzyme 1, membrane-associated aspartic protease 2, memapsin-2, aspartyl protease 2, and ASP2, is an enzyme that in humans is encoded by the BACE1 gene.1fkn: Structure of Beta-Secretase Complexed with Inhibitor1m4h: Crystal Structure of Beta-secretase complexed with Inhibitor OM00-31sgz: Crystal Structure of Unbound Beta-Secretase Catalytic Domain.1tqf: Crystal structure of human Beta secretase complexed with inhibitor1w50: APO STRUCTURE OF BACE (BETA SECRETASE)1w51: BACE (BETA SECRETASE) IN COMPLEX WITH A NANOMOLAR NON-PEPTIDIC INHIBITOR1xn2: New substrate binding pockets for beta-secretase.1xn3: Crystal structure of Beta-secretase bound to a long inhibitor with additional upstream residues.1xs7: Crystal Structure of a cycloamide-urethane-derived novel inhibitor bound to human brain memapsin 2 (beta-secretase).1ym2: Crystal structure of human beta secretase complexed with NVP-AUR2001ym4: Crystal structure of human beta secretase complexed with NVP-AMK6402b8l: Crystal structure of human beta secretase complexed with inhibitor2b8v: Crystal structure of human Beta-secretase complexed with L-L000430,4692f3e: Crystal Structure of the Bace complex with AXQ093, a macrocyclic inhibitor2f3f: Crystal Structure of the Bace complex with BDF488, a macrocyclic inhibitor2fdp: Crystal structure of beta-secretase complexed with an amino-ethylene inhibitor2g94: Crystal structure of beta-secretase bound to a potent and highly selective inhibitor.2hiz: Crystal Structure of human beta-secretase (BACE) in the presence of an inhibitor2hm1: Crystal Structure of human beta-secretase (BACE) in the presence of an inhibitor (2)2iqg: Crystal Structure of Hydroxyethyl Secondary Amine-based Peptidomimetic Inhibitor of Human Beta-Secretase (BACE)2irz: Crystal structure of human Beta-secretase complexed with inhibitor2is0: Crystal structure of human Beta-secretase complexed with inhibitor2of0: X-ray crystal structure of beta secretase complexed with compound 52ohk: X-ray crystal structure of beta secretase complexed with 1-amino-isoquinoline2ohl: X-ray crystal structure of beta secretase complexed with 2-aminoquinoline2ohm: X-ray crystal structure of beta secretase complexed with N~3~-benzylpyridine-2,3-diamine2ohn: X-ray crystal structure of beta secretase complexed with 4-(4-fluorobenzyl)piperidine2ohp: X-ray crystal structure of beta secretase complexed with compound 32ohq: X-ray crystal structure of beta secretase complexed with compound 42ohr: X-ray crystal structure of beta secretase complexed with compound 6a2ohs: X-ray crystal structure of beta secretase complexed with compound 6b2oht: X-ray crystal structure of beta secretase complexed with compound 72ohu: X-ray crystal structure of beta secretase complexed with compound 8b2ph6: Crystal Structure of Human Beta Secretase Complexed with inhibitor Beta-secretase 1 (BACE1), also known as beta-site amyloid precursor protein cleaving enzyme 1, beta-site APP cleaving enzyme 1, membrane-associated aspartic protease 2, memapsin-2, aspartyl protease 2, and ASP2, is an enzyme that in humans is encoded by the BACE1 gene. BACE1 is an aspartic-acid protease important in the formation of myelin sheaths in peripheral nerve cells. The transmembrane protein contains two active site aspartate residues in its extracellular protein domain and may function as a dimer. Generation of the 40 or 42 amino acid-long amyloid-β peptides that aggregate in the brain of Alzheimer's patients requires two sequential cleavages of the amyloid precursor protein (APP). Extracellular cleavage of APP by BACE1 creates a soluble extracellular fragment and a cell membrane-bound fragment referred to as C99. Cleavage of C99 within its transmembrane domain by γ-secretase releases the intracellular domain of APP and produces amyloid-β. Since gamma-secretase cleaves APP closer to the cell membrane than BACE1 does, it removes a fragment of the amyloid-β peptide. Initial cleavage of APP by α-secretase rather than BACE1 prevents eventual generation of amyloid-β. Unlike APP and the presenilin proteins important in γ-secretase, no known mutations in the gene encoding BACE1 cause early-onset, familial Alzheimer's disease, which is a rare form of the disorder. However, levels of this enzyme have been shown to be elevated in the far more common late-onset sporadic Alzheimer's. The physiological purpose of BACE's cleavage of APP and other transmembrane proteins is unknown. BACE2 is a close homolog of BACE1 with no reported APP cleavage in vivo. However a single residue mutation in APP reduces the ability of BACE1 to cleave it to produce amyloid-beta and reduces the risk of Alzheimer's disease and other cognitive declines. Drugs to block this enzyme (BACE inhibitors) in theory would prevent the buildup of beta-amyloid and (per the Amyloid hypothesis) may help slow or stop Alzheimer's disease. Several companies are in the early stages of development and testing of this potential class of treatment. In March 2008 phase I results were reported for CoMentis Inc's candidate CTS-21166. In April 2012 Merck & Co., Inc reported phase I results for its candidate verubecestat (MK-8931). Merck began a Phase II/III trial of MK-8931 in December, 2012 estimated to be completed in July 2019. In February 2017, Merck halted its late-stage trial of verubecestat for mild to moderate Alzheimer's disease after it was reported as having 'virtually no chance' of working according to an independent panel of experts. This came just three months after Eli Lilly & Co. announced its own setback with solanezumab. The results of Merck's trial of verubecestat on patients with early stage Alzheimer's are still expected in February 2019. In September 2014 AstraZeneca and Eli Lilly and Company announced an agreement to codevelop lanabecestat (AZD3293). A pivotal Phase II/III clinical trial of lanabecestat started in late 2014, but was halted in 2018 before its planned conclusion due to poor results.