PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
19723525-4	2010	Furthermore, the imbalance of calcium homeostasis increased the level of BAX, decreased the level of Bcl-2, induced cytochrome c release and activated caspase-3, leading to intranucleosomal DNA fragmentation and plasma membrane damage, eventually resulting in cell apoptosis.	Calcium	30-37	caspase 3	Homo sapiens	151-160	
20810541-5	2010	Multiple features of GW7845-induced cell death were suppressed by the calcium chelator BAPTA, including MAPK activation, loss of mitochondrial membrane potential, cytochrome c release, caspase-3 activation, and DNA fragmentation.	Calcium	70-77	caspase 3	Homo sapiens	185-194	
19626422-0	2010	Caspase-3 and -9 are activated in human myeloid HL-60 cells by calcium signal.	Calcium	63-70	caspase 3	Homo sapiens	0-16	
19490937-5	2009	The mechanism of cell death induced by simultaneous treatment of Alp and caffeine was associated with the calcium-mediated activation of mu-calpain, release of lysosomal protease cathepsin B, activation of PARP and cleavage of caspase 3.	Calcium	106-113	caspase 3	Homo sapiens	227-236	
19734695-8	2009	In sum, our results suggest that spermatozoa treated with calcium mobilizing agents, such as H(2)O(2) and progesterone, seem to undergo an apoptosis process that is dependent on caspase-3 activation.	Calcium	58-65	caspase 3	Homo sapiens	178-187	
19103761-3	2009	In human neuroblastoma (SK-N-SH) cells, thioureylenes (thiopental, carbimazole) inhibited the calcium-dependent neuronal protein phosphatase (PP)-2B, the activation of the proapoptotic transcription factor nuclear factor of activated T-cells, BAD-induced initiation of caspase-3, and poly-(ADP-ribose)-polymerase cleavage.	Calcium	94-101	caspase 3	Homo sapiens	269-278	
18958330-3	2008	Of the various possible pathways for the induction of apoptosis, experiments demonstrate that calcium is released from the endoplasmic reticulum, cytochrome c is liberated from the mitochondria to the cytosol, pro-caspase-3 is activated, poly-(ADP-ribose) polymerase is cleaved, and the chromatin is condensed subsequent to photodynamic treatment of these cells.	Calcium	94-101	caspase 3	Homo sapiens	210-223	
15618541-10	2005	CONCLUSIONS: OxLDL-induced apoptosis involves 2 distinct calcium-dependent pathways, the first mediated by calpain/mPTP/cytochrome C/caspase-3 and the second mediated by apoptosis-inducing factor, which is cyclosporin-insensitive and caspase-independent.	Calcium	57-64	caspase 3	Homo sapiens	133-142	
18155705-10	2008	Pretreatment of spermatozoa with Ru360, to block the calcium uptake into mitochondria, also was able to decrease the activation of caspase-3 and phosphatidylserine exposure that was stimulated by either H2O2 or P. CONCLUSION(S): These findings suggest that H2O2- and P-induced mitochondrial apoptosis is dependent on calcium signaling.	Calcium	317-324	caspase 3	Homo sapiens	131-140	
18434534-0	2008	Isoflurane-induced caspase-3 activation is dependent on cytosolic calcium and can be attenuated by memantine.	Calcium	66-73	caspase 3	Homo sapiens	19-28	
18434534-4	2008	We therefore set out to assess effects of extracellular calcium concentration on isoflurane-induced caspase-3 activation in H4 human neuroglioma cells stably transfected to express human full-length APP (H4-APP cells).	Calcium	56-63	caspase 3	Homo sapiens	100-109	
15848173-1	2005	We have shown previously that calcium could trigger nuclear fragmentation, which was associated with a caspase 3 (C3)-like activity [Juin, P., Pelletier, M., Oliver, L., Tremblais, K., Gregoire, M., Meflah, K. and Vallette, F.M.	Calcium	30-37	caspase 3	Homo sapiens	103-112	
15848173-1	2005	We have shown previously that calcium could trigger nuclear fragmentation, which was associated with a caspase 3 (C3)-like activity [Juin, P., Pelletier, M., Oliver, L., Tremblais, K., Gregoire, M., Meflah, K. and Vallette, F.M.	Calcium	30-37	caspase 3	Homo sapiens	114-116	
15848173-2	2005	(1998) Induction of a caspase-3-like activity by calcium in normal cytosolic extracts triggers nuclear apoptosis in a cell-free system.	Calcium	49-56	caspase 3	Homo sapiens	22-31	
15848173-7	2005	The cleavage of C3 via calcium-dependent proteolysis is independent of caspase 9; lysate exposure to calcium prevents further cleavage and activation by the cytochrome c and dATP pathway.	Calcium	23-30	caspase 3	Homo sapiens	16-18	
15848173-7	2005	The cleavage of C3 via calcium-dependent proteolysis is independent of caspase 9; lysate exposure to calcium prevents further cleavage and activation by the cytochrome c and dATP pathway.	Calcium	101-108	caspase 3	Homo sapiens	16-18	
15848173-8	2005	Altogether, our data suggest that calcium could favour a necrotic mechanism by inducing the generation of a form of C3 insensitive to mitochondrial activation.	Calcium	34-41	caspase 3	Homo sapiens	116-118	
18520043-4	2008	These studies indicate that the increase in potency for 3 may be related, in part, to an activation of caspase-3, increasing free calcium concentration and topoisomerase II inhibition.	Calcium	130-137	caspase 3	Homo sapiens	103-112	
16791842-5	2006	Activation of caspase-3 by physiological concentrations of cellular agonists, including thrombin or CCK-8, is independent of rises in cytosolic calcium concentration but requires PKC activation, and is necessary for agonist-induced activation of the tyrosine kinases Btk and pp60src and for several cellular functions, including store-operated calcium entry, platelet aggregation, or pancreatic secretion.	Calcium	144-151	caspase 3	Homo sapiens	14-23	
16791842-5	2006	Activation of caspase-3 by physiological concentrations of cellular agonists, including thrombin or CCK-8, is independent of rises in cytosolic calcium concentration but requires PKC activation, and is necessary for agonist-induced activation of the tyrosine kinases Btk and pp60src and for several cellular functions, including store-operated calcium entry, platelet aggregation, or pancreatic secretion.	Calcium	344-351	caspase 3	Homo sapiens	14-23	
16394273-0	2006	PS2 mutation increases neuronal cell vulnerability to neurotoxicants through activation of caspase-3 by enhancing of ryanodine receptor-mediated calcium release.	Calcium	145-152	caspase 3	Homo sapiens	91-100	
15302579-5	2004	APC attenuated calcium-induced cell death via prevention of cell apoptosis, as indicated by a decrease in both active caspase-3 and morphologically apoptotic cells.	Calcium	15-22	caspase 3	Homo sapiens	118-127	
15500948-6	2004	Cytochrome C (Cyto C) release from mitochondria into cytosol and Caspase-3 activation after HMME-PDT were inhibited by BAPTA/AM (an intracellular calcium chelator).	Calcium	146-153	caspase 3	Homo sapiens	65-74	
15474552-4	2004	The treatment of BAPTA-AM, permeable endogenous calcium chelator, inhibited GJBRH-induced caspase-3 and -9 activations, the release of cytochrome c and Smac/DIABLO into cytoplasm and the resultant cell death in HeLa human cervical carcinoma cells.	Calcium	48-55	caspase 3	Homo sapiens	90-106	
15284241-0	2004	Caspase-3-induced truncation of type 1 inositol trisphosphate receptor accelerates apoptotic cell death and induces inositol trisphosphate-independent calcium release during apoptosis.	Calcium	151-158	caspase 3	Homo sapiens	0-9	
14713297-5	2003	Our results showed that reduction of ER calcium release can partially attenuate Abeta peptide neurotoxicity evaluated by LDH release, caspase-3 activity and quantification of apoptotic cells.	Calcium	40-47	caspase 3	Homo sapiens	134-143	
14695652-0	2004	Intracellular calcium release is required for caspase-3 and -9 activation.	Calcium	14-21	caspase 3	Homo sapiens	46-62	
12975376-8	2003	Calcium release from the endoplasmic reticulum and activation of caspase-8 are the upstream signals modulating the caspase-3-mediated activation of PKR by Abeta peptide.	Calcium	0-7	caspase 3	Homo sapiens	115-124	
12809603-6	2003	Further analysis showed that lysophosphatidylcholine was released from apoptotic cells due to the caspase-3 mediated activation of the calcium-independent phospholipase A(2).	Calcium	135-142	caspase 3	Homo sapiens	98-107	
14646222-3	2003	Studies on the effects of the intracellular calcium chelator BAPTA-AM on the induction of apoptosis and the activation of SAPK/JNK and caspase-3 proved that the chelation of calcium merely delayed the onset of radiation-induced apoptosis and the activation of SAPK/JNK and caspase-3.	Calcium	44-51	caspase 3	Homo sapiens	135-144	
14646222-3	2003	Studies on the effects of the intracellular calcium chelator BAPTA-AM on the induction of apoptosis and the activation of SAPK/JNK and caspase-3 proved that the chelation of calcium merely delayed the onset of radiation-induced apoptosis and the activation of SAPK/JNK and caspase-3.	Calcium	174-181	caspase 3	Homo sapiens	135-144	
14646222-3	2003	Studies on the effects of the intracellular calcium chelator BAPTA-AM on the induction of apoptosis and the activation of SAPK/JNK and caspase-3 proved that the chelation of calcium merely delayed the onset of radiation-induced apoptosis and the activation of SAPK/JNK and caspase-3.	Calcium	174-181	caspase 3	Homo sapiens	273-282	
12176903-2	2002	The activity of calpains (calcium-dependent, neutral proteases, active in the cells responding to signals inducing a rise of cytoplasmic Ca(++)) is involved in the regulation of apoptosis of some cell types by interaction with caspase-3.	Calcium	26-33	caspase 3	Homo sapiens	227-236	
12509415-4	2003	Cisplatin-induced caspase-3 activation in cytoplasts required calcium and the activity of the calcium-dependent protease calpain.	Calcium	62-69	caspase 3	Homo sapiens	18-27	
12446691-10	2003	Interestingly, the cytosolic calcium chelator BAPTA-AM and K-201 protected RA-treated chondrocytes from undergoing apoptotic changes, as indicated by higher bcl-2 gene expression, reduced caspase-3 activity, and the percentage of TUNEL-positive cells.	Calcium	29-36	caspase 3	Homo sapiens	188-197	
11876554-15	2001	Digoxin induced alteration in intracellular calcium/magnesium ratios and low ubiquinone levels can lead to a mitochondrial dysfunction resulting in increased free radical generation and reduced scavenging &amp; caspase-3 activation producing a P21 defect contributing to oncogenesis.	Calcium	44-51	caspase 3	Homo sapiens	211-220	
11032173-0	2000	Effect of Bcl-2 and caspase-3 on calcium distribution in apoptosis of HL-60 cells.	Calcium	33-40	caspase 3	Homo sapiens	20-29	
11832715-5	2002	The consequential decrease in mitochondrial calcium, cytochrome c release and Bax translocation to mitochondria, which resulted in the activation of caspase 3 leading to apoptotic cell death, was measured by biochemical and confocal microscopy.	Calcium	44-51	caspase 3	Homo sapiens	149-158	
11278424-20	2001	Finally, we have demonstrated that calsenilin is a substrate for caspase-3, and we have used site-directed mutagenesis to map the caspase-3 cleavage site to a region that is proximal to the calcium binding domain of calsenilin.	Calcium	190-197	caspase 3	Homo sapiens	130-139	
11032173-7	2000	The results indicate that activated caspase-3 can promote the movement of intracellular calcium from Golgi"s apparatus to nucleus, and the process is inhibited by Ac-DEVD-CHO (inhibitor of caspase-3), and that Bcl-2 can inhibit the movement and accumulation of intracellular calcium in nucleus through its inhibition on caspase-3.	Calcium	88-95	caspase 3	Homo sapiens	36-45	
11032173-7	2000	The results indicate that activated caspase-3 can promote the movement of intracellular calcium from Golgi"s apparatus to nucleus, and the process is inhibited by Ac-DEVD-CHO (inhibitor of caspase-3), and that Bcl-2 can inhibit the movement and accumulation of intracellular calcium in nucleus through its inhibition on caspase-3.	Calcium	88-95	caspase 3	Homo sapiens	189-198	
11032173-7	2000	The results indicate that activated caspase-3 can promote the movement of intracellular calcium from Golgi"s apparatus to nucleus, and the process is inhibited by Ac-DEVD-CHO (inhibitor of caspase-3), and that Bcl-2 can inhibit the movement and accumulation of intracellular calcium in nucleus through its inhibition on caspase-3.	Calcium	88-95	caspase 3	Homo sapiens	189-198	
10477693-5	1999	Calcium ionophore-stimulated platelets also recapitulated apoptotic events, including cell shrinkage, plasma membrane microvesiculation, phosphatidyl serine externalization, and proteolysis of procaspase-9, procaspase-3, gelsolin, and protein kinase C-delta.	Calcium	0-7	caspase 3	Homo sapiens	207-219	
11032173-7	2000	The results indicate that activated caspase-3 can promote the movement of intracellular calcium from Golgi"s apparatus to nucleus, and the process is inhibited by Ac-DEVD-CHO (inhibitor of caspase-3), and that Bcl-2 can inhibit the movement and accumulation of intracellular calcium in nucleus through its inhibition on caspase-3.	Calcium	275-282	caspase 3	Homo sapiens	36-45	
11032173-7	2000	The results indicate that activated caspase-3 can promote the movement of intracellular calcium from Golgi"s apparatus to nucleus, and the process is inhibited by Ac-DEVD-CHO (inhibitor of caspase-3), and that Bcl-2 can inhibit the movement and accumulation of intracellular calcium in nucleus through its inhibition on caspase-3.	Calcium	275-282	caspase 3	Homo sapiens	189-198	
11032173-7	2000	The results indicate that activated caspase-3 can promote the movement of intracellular calcium from Golgi"s apparatus to nucleus, and the process is inhibited by Ac-DEVD-CHO (inhibitor of caspase-3), and that Bcl-2 can inhibit the movement and accumulation of intracellular calcium in nucleus through its inhibition on caspase-3.	Calcium	275-282	caspase 3	Homo sapiens	189-198	
10828033-3	2000	Cleavage by caspase-3 generates an amino-terminal fragment of gelsolin that can sever actin filaments independently of calcium regulation.	Calcium	119-126	caspase 3	Homo sapiens	12-21	
32402583-9	2020	Additionally, an intracellular calcium rise and subsequent mitochondrial membrane potential collapse, P53 phosphorylation, reduced BcL-2/Bax ratio in the mitochondrial membrane, release cytochrome c from mitochondria, leading to the subsequent activation of caspase 3 activation by H2O2 were all markedly suppressed in the presence of luteolin.	Calcium	31-38	caspase 3	Homo sapiens	258-267	
8647264-0	1996	Ligation of CD40 rescues Ramos-Burkitt lymphoma B cells from calcium ionophore- and antigen receptor-triggered apoptosis by inhibiting activation of the cysteine protease CPP32/Yama and cleavage of its substrate PARP.	Calcium	61-68	caspase 3	Homo sapiens	177-181	
34309093-2	2021	Circulating Caspase-3 has also been associated with diabetes and coronary calcium score.	Calcium	74-81	caspase 3	Homo sapiens	12-21	
34044258-6	2021	The mechanism of mechanical apoptosis (mechanoptosis) of transformed cells involves calcium influx through the mechanosensitive channel, Piezo1 that activates calpain 2 dependent apoptosis through the BAX molecule and subsequent mitochondrial activation of caspase 3 on both fibronetin and collagen matrices.	Calcium	84-91	caspase 3	Homo sapiens	257-266	
33171207-11	2021	By using calcium channel blocker Nimodipine, the increase of intracellular Ca2+ was attenuated, and the death rate of neurons, the ROS and opening of mPTP, decreased ATP production, the expressions of cytochrome c, cleaved caspase-9, cleaved caspase-3 and the ratio of Bax/Bcl-2 were alleviated.	Calcium	9-16	caspase 3	Homo sapiens	242-251	
10528917-0	1999	Effects of intracellular calcium chelator BAPTA-AM on radiation-induced apoptosis regulated by activation of SAPK/JNK and caspase-3 in MOLT-4 cells.	Calcium	25-32	caspase 3	Homo sapiens	122-131	
10528917-6	1999	CONCLUSION: These results revealed that chelation of calcium merely delayed the onset of the radiation-induced apoptosis regulated by the activation of SAPK/JNK and caspase-3, and calcium was not essential for the induction of apoptosis in X-irradiated MOLT-4 cells.	Calcium	53-60	caspase 3	Homo sapiens	165-174	
9651349-0	1998	Induction of a caspase-3-like activity by calcium in normal cytosolic extracts triggers nuclear apoptosis in a cell-free system.	Calcium	42-49	caspase 3	Homo sapiens	15-24	
9651349-10	1998	The enhanced caspase-3 activity induced by calcium was inhibited by protease inhibitors affecting morphological nuclear apoptosis except for those responsible for the degradation of lamin A.	Calcium	43-50	caspase 3	Homo sapiens	13-22	
8647264-0	1996	Ligation of CD40 rescues Ramos-Burkitt lymphoma B cells from calcium ionophore- and antigen receptor-triggered apoptosis by inhibiting activation of the cysteine protease CPP32/Yama and cleavage of its substrate PARP.	Calcium	61-68	caspase 3	Homo sapiens	171-176	
33022360-9	2020	Restoration of physiological apoptosis by increasing the release of intracellular calcium to generate ROS thereby reducing the mitochondrial membrane potential for the release of cytochrome c and activation of caspase-3 was also reported with Imatinib administration.	Calcium	82-89	caspase 3	Homo sapiens	210-219	
31918031-6	2020	This inhibition led to mitochondrial depolarisation in response to physiological and pathological calcium stimuli and made these cells vulnerable to calcium-induced caspase 3 activation and cell death.	Calcium	98-105	caspase 3	Homo sapiens	165-174	
31918031-6	2020	This inhibition led to mitochondrial depolarisation in response to physiological and pathological calcium stimuli and made these cells vulnerable to calcium-induced caspase 3 activation and cell death.	Calcium	149-156	caspase 3	Homo sapiens	165-174	
31438500-9	2019	Caspase 3 and 12 activation was induced by DA compared to vehicle at 24 h. These studies indicate that clinically relevant concentrations of DA impair HK-2 cells by dysregulating calcium, inducing mitochondrial turnover and oxidative stress, and activating apoptosis.	Calcium	179-186	caspase 3	Homo sapiens	0-9	
28730337-13	2017	In addition, the calcium chelators, EDTA and BAPTA, and RNAi disruption of the NMDA receptor reduced ethanol-induced caspase-3 activation in H4 cells.	Calcium	17-24	caspase 3	Homo sapiens	117-126	
29438593-3	2018	Betulinic acid, thapsigargin, and the calcium ionophore treatment resulted in an increased number of sperm cells with caspase 9 and caspase 3 activation, disrupted mitochondrial membrane potential, and a reacted acrosome.	Calcium	38-45	caspase 3	Homo sapiens	132-141	
29263678-5	2017	We found that during apoptosis, cleaved caspase 3 could activate cytosolic calcium-independent phospholipase A2, which stimulated the release of arachidonic acid (AA) and triggered the production of prostaglandin E2 (PGE2).	Calcium	75-82	caspase 3	Homo sapiens	40-49	
28730337-15	2017	Our results indicate that ethanol-induced caspase-3 activation and apoptosis are likely to be dependent on cytosolic calcium levels and that they can be reduced by memantine treatment.	Calcium	117-124	caspase 3	Homo sapiens	42-51	
24802256-10	2015	Blockade of intracellular calcium release decreased caspase-3 activation, but had no effect on AA-induced p38-MAPK activation.	Calcium	26-33	caspase 3	Homo sapiens	52-61	
27572620-6	2017	Moreover, a reduction in extracellular calcium reduced E-cadherin and enhanced caspase 3/7 activity (apoptosis), whereas calcium chelation by EGTA (ethylene glycol-bis(beta-aminoethyl ether)-N,N,N",N"-tetraacetic acid) resulted in enhanced lipogenesis.	Calcium	39-46	caspase 3	Homo sapiens	79-88	
24751678-8	2014	Furthermore, RCAN1.4 overexpression exacerbated calcium overloading-induced neuronal apoptosis, which was mediated by caspase-3 apoptotic pathway.	Calcium	48-55	caspase 3	Homo sapiens	118-127	
24961950-5	2014	As expected, preventing an increase in intracellular calcium levels using intracellular calcium chelators, EGTA, and BAPTA/AM, could substantially inhibit the phosphorylation of JNK and p38 MAPK, abolish the activation of calpains, namely caspase-12, caspase-9, and caspase-3, and provide significant protection for TG-treated activated HSCs.	Calcium	53-60	caspase 3	Homo sapiens	266-275	
24961950-5	2014	As expected, preventing an increase in intracellular calcium levels using intracellular calcium chelators, EGTA, and BAPTA/AM, could substantially inhibit the phosphorylation of JNK and p38 MAPK, abolish the activation of calpains, namely caspase-12, caspase-9, and caspase-3, and provide significant protection for TG-treated activated HSCs.	Calcium	88-95	caspase 3	Homo sapiens	266-275	
25549352-8	2014	Furthermore, we show that intense heat stress may induce apoptosis in HUVEC cells through the calcium-mediated mitochondrial apoptotic pathway, as indicated by elevation of cytoplasmic Ca2+, expression of Apaf-1, activation of caspase-9 and caspase-3, PARP cleavage, and ultimately nucleosomal DNA fragmentation; Reactive oxygen species (ROS) appear to act upstream in this process.	Calcium	94-101	caspase 3	Homo sapiens	241-250	
23122728-4	2013	We detected a robust increase in calcium levels in response to staurosporine treatment in primary human fibroblasts and HeLa cells in the presence of the caspase inhibitor Z-VAD, indicating that calcium release during the initiation of apoptosis occurs independently of caspase 3.	Calcium	33-40	caspase 3	Homo sapiens	270-279	
23122728-4	2013	We detected a robust increase in calcium levels in response to staurosporine treatment in primary human fibroblasts and HeLa cells in the presence of the caspase inhibitor Z-VAD, indicating that calcium release during the initiation of apoptosis occurs independently of caspase 3.	Calcium	195-202	caspase 3	Homo sapiens	270-279	
23103827-2	2012	The anti-beta(1)-AR IgG binds and activates atria beta(1)-AR, increasing the intracellular calcium concentration, which, in turn, activates caspases-3, -8, and -9.	Calcium	91-98	caspase 3	Homo sapiens	140-162	
21979311-7	2011	These calcium reactions were compared and analyzed with the results of cell viability test, Hoechst staining, intracellular reactive oxygen species level and expression of caspase-3, and poly-ADP-ribose polymerase (PARP).	Calcium	6-13	caspase 3	Homo sapiens	172-181	
22982862-0	2012	Structural insights into the calcium-dependent interaction between calbindin-D28K and caspase-3.	Calcium	29-36	caspase 3	Homo sapiens	86-95	
23098449-10	2012	OD values of caspase-3 and caspase-9 were increased and expression of bcl-2 was increased and bax was decreased in protein levels in RL952 cells after 24 h of hyperin treatment, Moreover, intracellular calcium accumulation occurred in hyperin-treated cells.	Calcium	202-209	caspase 3	Homo sapiens	13-22