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1 , which encodes a putative membrane-embedded metalloprotease.
2 tsH1, a homolog of a bacterial membrane AAA+ metalloprotease.
3 after 8 h and was coding for a transmembrane metalloprotease.
4 rich Mucin-like protein and a Zinc-dependent metalloprotease.
5 a complex with the p97 ATPase and the SPRTN metalloprotease.
6 decorin, collagens, fibronectin, and matrix metalloproteases.
7 flammatory response and inhibition of matrix metalloproteases.
8 hem is resistant to shedding by cell surface metalloproteases.
9 ge takes place on the cell surface by matrix metalloproteases.
10 of the M16A family of soluble zinc-dependent metalloproteases.
11 embrane and is carried out by membrane-bound metalloproteases.
12 igh selectivity for the bacterial over human metalloproteases.
14 he catalytic and hemopexin domains of matrix metalloprotease-1 (MMP1) on type 1 collagen fibrils corr
15 expression of alpha1 type I collagen, matrix metalloprotease-1, and platelet-derived growth factor-be
17 as dependent on the sheddase disintegrin and metalloprotease 10 (ADAM10) and the gamma-secretase comp
20 anchored metalloproteinase a disintegrin and metalloprotease 10 (ADAM10) is required for shedding of
21 ne of the proteases is the a-disintegrin-and-metalloprotease 10 (ADAM10) which acts as alpha-secretas
22 was abrogated by an ADAM (A disintegrin and metalloprotease) 10 and 17 selective inhibitor, but not
24 (ACE2) and an increase in a disintegrin and metalloprotease 17 (ADAM17) activity in experimental hyp
25 ired for the maturation of A disintegrin and metalloprotease 17 (ADAM17, also called TACE), which is
26 metalloproteinase ADAM17 (a disintegrin and metalloprotease 17) controls EGF receptor (EGFR) signali
27 he metalloprotease ADAM17 (a disintegrin and metalloprotease 17) is a key regulator of tumor necrosis
28 he metalloprotease ADAM17 (a disintegrin and metalloprotease 17) regulates EGF-receptor and TNFalpha
29 l-surface metalloprotease, a disintegrin and metalloprotease-17 (ADAM17), and into ADAM17 hypomorphic
30 ase 9 (MMP9) as well as activation of matrix metalloprotease 2 (MMP2) and MMP9, whereas the ED peptid
32 ide (NO) production, which stimulates matrix metalloprotease-2 (MMP-2) and MMP-9 activity in the extr
33 nnexin V-dependent externalization of matrix metalloprotease-2 (MMP-2) for reconfiguring the extracel
34 on and slow degradation of lamin-A by matrix-metalloprotease-2 (MMP2), and inhibition of this lamin-A
36 itically regulated by the activity of matrix metalloprotease 3 (MMP-3), in contrast to NMDAR-dependen
37 luding TNF-alpha, IL-12p40 and high level of metalloprotease 9 (MMP-9) at the late stages of disease.
40 tion, NO-dependent S-nitrosylation of matrix metalloprotease 9 (MMP9) as well as activation of matrix
42 use, oxidative stress activated MMP9 (matrix metalloprotease 9) via its redox-responsive regulatory s
43 udy, we investigate the potential for matrix metalloprotease-9 (MMP-9), an endopeptidase secreted in
44 ected Wsh mice had reduced amounts of matrix metalloprotease-9 in BALF and were resistant to epitheli
46 Our data suggest that this protease, matrix metalloprotease-9, increases branching of excitatory neu
48 receptor on NK cells that is cleaved by the metalloprotease a disintegrin and metalloproteinase-17 u
49 asing enzyme, the transmembrane cell-surface metalloprotease, a disintegrin and metalloprotease-17 (A
50 ns of the substrates, which in turn regulate metalloprotease access to the substrates' ectodomain and
55 ent with IL-1 significantly increased matrix metalloprotease activity in the conditioned media of eGF
56 rofiling revealed that putative residues for metalloprotease activity within MroQ are required for it
57 at two alpha-sites through a disintegrin and metalloprotease (ADAM) and at one beta-site through BACE
58 ally active members of the A Disintegrin And Metalloprotease (ADAM) family of membrane-anchored metal
60 talloproteinase (MMP)- and a disintegrin and metalloprotease (ADAM)-family zinc metalloproteases mark
62 his paper, we report a specific role for the metalloprotease ADAM10 on B cells in regulating both ICO
63 toxin(4)-a pore-forming toxin that binds the metalloprotease ADAM10 on the surface of a broad range o
65 is facilitated by the ITCH E3 ligase and the metalloprotease ADAM10, both of which are also secreted
66 hese tetraspanins directly interact with the metalloprotease ADAM10, regulate its exit from the endop
67 PrP(C) is shed at the plasma membrane by the metalloprotease ADAM10, yet the impact of this on prion
75 ow that TIMP3 acts through inhibition of the metalloprotease ADAM17 and HB-EGF to regulate cerebral a
76 cally, we found that fibulin-3 activates the metalloprotease ADAM17 by competing with its endogenous
77 can be shed from the plasma membrane via the metalloprotease ADAM17 to generate a soluble peptide wit
78 ate the NRG1-ErbB4 pathway, possibly via the metalloprotease ADAM17, in skeletal muscle of diet-induc
79 expression and phosphorylation ratio of the metalloprotease ADAM17, which is involved in NRG1 sheddi
82 ctor) inflammatory pathway, triggered by the metalloprotease ADAM17/TACE, and a lipid droplet (LD)-me
84 lecules from precursors by a-disintegrin-and-metalloproteases (ADAMs) is regulated with high substrat
85 Ectodomain cleavage by A-disintegrin and -metalloproteases (ADAMs) releases many important biologi
86 ssive cleavage of large VWF multimers by the metalloprotease ADAMTS-13 in an LVAD-driven circulation.
95 s, have provided opportunities for mimicking metalloprotease and for bridging the gap between natural
98 osis and tissue remodeling, including matrix metalloproteases and collagen, were upregulated in chron
99 ch protrusive organelles that secrete matrix metalloproteases and degrade the extracellular matrix.
100 ion were assessed in vitro on a set of human metalloproteases and displayed high affinity and selecti
101 tor p300, preventing the induction of matrix metalloproteases and other p300-dependent genes required
102 tating invasion through expression of matrix metalloproteases and synthesis of interleukin 6 (IL-6).
103 ulates two functional forms of RANKL through metalloproteases and the JAK2/STAT5 pathway, and it help
105 s generated at the plasma membrane by matrix metalloproteases and transferred to the cell nucleus via
107 F-beta1, collagen I, fibronectin, and matrix metalloproteases, and plasma PAI-1 levels correlated wit
108 other zinc-dependent enzymes such as matrix metalloproteases, and possessed limited cytotoxicity aga
109 and researcher, especially regarding meprin metalloproteases; and 3) my participation in communities
110 Here, we show that both lectican-degrading metalloproteases are present in these brain regions and
111 oprotease (ADAM) family of membrane-anchored metalloproteases are synthesized as proenzymes, in which
112 We observe increased expression of matrix metalloproteases as well as decreased expression of tiss
113 me profiling identifies a gene encoding a Zn-metalloprotease, as a candidate effecting copper recycli
114 ne, which encodes variants of the mTLD/BMP-1 metalloproteases, as a critical regulator of alpha3beta1
115 virulence-related protein families, such as metalloproteases-associated paralogs, were exclusively i
117 codes a mitochondria-localized ATP-dependent metalloprotease belonging to the FILAMENTATION TEMPERATU
119 ific proteases, including complement, matrix metalloproteases, caspases, and granzymes, and carried b
120 ange of the dimerization partners that allow metalloprotease cleavage in the extracellular space.
122 Notch activation requires unmasking of a metalloprotease cleavage site remote from the site of li
123 regulatory switch results in sensitivity to metalloprotease cleavage, and bound ligands induce Notch
126 decreased expression of tissue inhibitor of metalloproteases confined to sinusoidal endothelial cell
127 iotensin-I converting enzyme (ACE) is a zinc metalloprotease consisting of two catalytic domains (N-
128 We found that the isoform associates with metalloprotease-containing exosomes and stimulates their
131 AMDEC1 is a proteolytically active metzincin metalloprotease displaying rare active site architecture
132 oprotease to spacer domains reveals that the metalloprotease domain exhibits a latent conformation in
133 ese rare structural features in the ADAMDEC1 metalloprotease domain impact the proteolytic activity,
134 ns that generate DPCs and that the catalytic metalloprotease domain of CaWss1 is essential for its ce
138 t pro-domain processing between the pro- and metalloprotease domain, but nevertheless, cause signific
140 ergence in substrate specificity between the metalloprotease domains of these toxins and the related
142 h basement membrane in the absence of matrix metalloproteases during its developmental invasion.
143 the catalytic domain of the light chain (LC) metalloprotease (E224 > A and Y366 > A), designed to pro
144 n this study, we found that an extracellular metalloprotease encoded by impA (PA0572) is under the re
145 ts to develop potent compounds against these metalloproteases failed to achieve selectivity against h
146 ved by members of the disintegrin and matrix-metalloprotease family that are increased in the aqueous
149 our knowledge, this is the first report on a metalloprotease from T. clypeatus, and the results indic
150 o-Pro endopeptidase-1 (PPEP-1) is a secreted metalloprotease from the bacterial pathogen Clostridium
151 status of the PsbP-like protein and the zinc metalloprotease FtsH as well as the presence of high sal
152 cus aureus, the membrane-bound ATP-dependent metalloprotease FtsH plays a critical role in resistance
154 erize the genomic organization of duplicated metalloprotease genes (patristacins) recruited into the
158 om degradation by the symbiotically relevant metalloprotease HrrP (host range restriction peptidase),
160 dynamics of the Pseudomonas fluorescens 07A metalloprotease in the presence of structural Ca(2+) and
161 role of selected serine proteases and matrix metalloproteases in chemokine processing has long been k
162 RNF213 down-regulated expressions of matrix metalloproteases in endothelial cells, but not in fibrob
163 of the inner membrane-embedded ATP-dependent metalloproteases in mitochondria of Arabidopsis (Arabido
164 nduces expression of the Tissue inhibitor of metalloproteases in the haltere, which prevents the basa
166 urons, and expression of wild-type but not a metalloprotease-inactive version of pappaa restores habi
169 rmacological inhibition of the ECE family of metalloproteases increased intracellular and extracellul
170 sphorylation was reduced after inhibition of metalloprotease-induced IL-15Ralpha-IL-15 shedding from
171 tors that stimulate the production of matrix metalloprotease, inflammatory cell recruitment, and dend
173 deficient mice demonstrate the redundancy of metalloprotease inhibitor function in embryonic and post
174 ge of LTBP4 was efficiently inhibited by the metalloprotease inhibitor TIMP-4, but not by TIMP-1 and
177 st exploited strategy to develop potent zinc-metalloprotease inhibitors relies on a core zinc chelato
180 nd metalloproteinase domain 10 (ADAM10) is a metalloprotease involved in cleavage of various cell sur
182 (MT1-MMP or MMP-14) is a zinc-transmembrane metalloprotease involved in the degradation of extracell
183 se-1 and -2 (ADAMTS-4 and ADAMTS-5) are zinc metalloproteases involved in the degradation of aggrecan
186 ight that SPRTN, a specialized DNA-dependent metalloprotease, is a central player in proteolytic clea
188 Ste24, an integral membrane protein zinc metalloprotease, is found in every kingdom of eukaryotes
191 tory pathways involving inhibition of matrix metalloproteases, liver X receptor/retinoid X receptor,
193 Human ADAMTS13 is a multidomain protein with metalloprotease (M), disintegrin-like (D), thrombospondi
194 of membrane RANKL through downregulation of metalloproteases mainly a disintegrin and metalloprotein
195 egrin and metalloprotease (ADAM)-family zinc metalloproteases markedly decreased both entry and cell-
196 Upon siRNA-mediated knockdown of the astacin metalloprotease meprin beta, the levels of the alternati
197 analysis highlighted induction of the matrix metalloprotease MMP-10 and the extracellular matrix prot
200 nd were analysed for a panel of novel matrix metalloprotease (MMP)-degraded ECM proteins, by ELISA-ba
207 se in the activity of membrane type-1 matrix metalloprotease (MMP14, MT1-MMP) by heterotrimeric G pro
213 eavage is mediated by upregulation of matrix metalloproteases (MMPs) that accompanies higher HPSE exp
215 depends on extracellular signaling by matrix metalloproteases (MMPs), but it is unknown how this cata
216 cluding neutrophil elastase and MMPs (matrix metalloproteases), modulate cell signaling, inflammation
219 e in PlcB processing and vacuole escape, the metalloprotease Mpl is required for ActA processing and
222 cle cargo such as the membrane-type 1 matrix metalloprotease (MT1-MMP) to shedding microvesicles.
223 ce the surface expression of membrane type 1 metalloprotease (MT1-MMP) via down-regulating the kinesi
224 endent recycling of the transmembrane matrix metalloprotease, MT1-MMP to promote invasive behaviour l
227 n and missense mutations in MME encoding the metalloprotease neprilysin in 19 index case subjects dia
228 erine hydrolases, cysteine proteases, matrix metalloproteases, nitrilases, caspases, and histone deac
229 oteolytically cleaved by membrane-associated metalloproteases of the ADAM family, leading to the shed
230 embrane depolarization and activation of the metalloprotease OMA1, to prevent extreme mitochondrial f
231 itors of cysteine proteases, acid proteases, metalloproteases, or aminopeptidases abolished the effec
232 cer biomarkers shed from the cell surface by metalloproteases overexpressed in numerous cancers.
236 Both murine Notch1 and Notch2 require the metalloprotease protease Adam17, but not Adam10 during l
244 IA-negative S. epidermidis 1457Deltaica, the metalloprotease SepA is required for Aap-dependent S. ep
245 duced synaptic enlargement depends on matrix metalloprotease signaling in the extracellular matrix (E
246 rocess, we examined the localisation of FtsH metalloproteases, some of which are directly involved in
250 removed by the proteolytic activities of the metalloprotease SPRTN or the proteasome in a replication
251 kr1/Ltn1, Hrd1, and the Asi complex) and the metalloprotease Ste24 in induced models of ER stress.
252 d degradation ubiquitin ligase Hrd1 and zinc metalloprotease Ste24, promote degradation of characteri
255 peptide hormones, growth factors and matrix metalloprotease substrates, neuropeptides, amyloid pepti
257 ve examined the role of the conserved Rpn11p metalloprotease subunit of the proteasome, which couples
258 further matured via proteolytic cleavage by metalloproteases such as ADAM17, a process known as shed
259 nM) and a weak inhibitor of other mammalian metalloproteases such as TNFalpha converting enzyme (TAC
261 Amberg Johnson et al. (2017) identified the metalloprotease TgFtsH1 as the target of actinonin in th
262 derived from cortical neurons, and ADAM10, a metalloprotease that cleaves CX3CL1 into a secreted form
263 xperiments show that the activity of Oma1, a metalloprotease that cleaves Opa1, is regulated by short
264 0) is a ubiquitously expressed transmembrane metalloprotease that cleaves the extracellular regions f
265 -Like, SWIRM, and MPN domains 1 (MYSM1) is a metalloprotease that deubiquitinates the K119-monoubiqui
266 II secretion system effector, termed NleD, a metalloprotease that inactivates MAPKs by specifically c
267 , the protein encoded by SPRTN, is a nuclear metalloprotease that is involved in the repair of DNA-pr
268 rescued by overexpression of Kuzbanian, the metalloprotease that mediates the Notch S2 cleavage.
269 ) with increased expression of the ADAM10/17 metalloprotease that promotes trans-signaling by the sol
270 om2 is an essential cofactor for ADAM17, the metalloprotease that sheds both the proinflammatory cyto
271 We also identify two inhibitors of host metalloproteases that block S-mediated cell-cell fusion,
272 le hydrophobic S1' specificity pocket of the metalloprotease thermolysin with purposefully designed l
273 Here, we show that the tissue inhibitors of metalloprotease (TIMP) gene family is essential for norm
275 or batimastat but not by tissue inhibitor of metalloproteases (TIMP)-1, TIMP-2, or the N-terminal inh
276 mediated by activation of the tmTNF cleavage metalloprotease TNF-alpha-converting enzyme via p38 MAP
279 ere, we report that the BMP-1/Tolloid family metalloprotease Tolkin (Tok) is responsible for Slit pro
280 C. piperi sequences encode a novel family of metalloprotease toxins that are distantly related to BoN
281 strates are associated with their respective metalloproteases under both basal or cleavage-stimulated
283 as Streptococcus pneumoniae secrete a giant metalloprotease virulence factor responsible for cleavin
284 The upregulation of DC-STAMP and matrix metalloproteases was observed on these cells and may rep
285 cluding the up-regulation of multiple matrix metalloproteases, which are known to be critical for the
286 eptidase STE24 (ZMPSTE24) is a transmembrane metalloprotease whose catalytic activity is critical for
288 ses were confirmed to be serine protease and metalloprotease with molecular weight (MW) of 44 and 108
289 ne network of ADAMTS (A Disintegrin-like and Metalloprotease with Thrombospondin motifs) genes as cen
290 metalloprotease ADAMTS13 (a disintegrin and metalloprotease with thrombospondin type 1 repeats membe
291 re deficiency in ADAMTS13 (a disintegrin and metalloprotease with thrombospondin type 1 repeats, memb
292 rotein S, antithrombin and A Disintegrin and Metalloprotease with Thrombospondin type 1 repeats-13 (A
295 n this proteolytic pathway involves the zinc metalloprotease YaeL; V. cholerae cells lacking YaeL acc
296 known chelators that can disrupt the BoNT/A metalloprotease zinc-containing active site, thus impedi
297 hat the protrusion is enriched in the matrix metalloprotease ZMP-1 and transiently expands AC volume
298 ic cleavage of CD2831 and CD3246 by the zinc metalloprotease ZmpI, whose expression is controlled by