0	11	LPS-Induced	lps-induced	JJ
12	21	NF-kappaB	NF-kappaB	NNP
22	32	activation	activation	NN
33	36	and	and	CC
37	46	TNF-alpha	TNF-alpha	NNP
47	54	release	release	NN
55	57	in	in	IN
58	63	human	human	JJ
64	73	monocytes	monocyte	NNS
74	77	are	be	VBP
78	85	protein	protein	NN
86	94	tyrosine	tyrosine	NN
95	101	kinase	kinase	NNP
102	111	dependent	dependent	JJ
112	115	and	and	CC
116	123	protein	protein	NN
124	130	kinase	kinase	NNP
131	132	C	C	NNP
133	144	independent	independent	JJ
144	145	.	.	.

147	157	BACKGROUND	background	NN
157	158	:	:	:
159	164	Tumor	tumor	NN
165	173	necrosis	necrosis	NN
174	180	factor	factor	NN
181	186	alpha	alpha	NN
187	188	(	(	(
188	197	TNF-alpha	TNF-alpha	NNP
197	198	)	)	)
199	201	is	be	VBZ
202	204	an	an	DT
205	214	important	important	JJ
215	223	mediator	mediator	NN
224	226	of	of	IN
227	233	septic	septic	JJ
234	239	shock	shock	NN
239	240	.	.	.

241	250	Endotoxin	Endotoxin	NNP
251	252	(	(	(
252	255	LPS	LPS	NNP
255	256	)	)	)
257	263	signal	signal	NN
264	276	transduction	transduction	NN
277	279	in	in	IN
280	285	human	human	JJ
286	295	monocytes	monocyte	NNS
296	301	leads	lead	VBZ
302	304	to	to	TO
305	315	activation	activation	NN
316	318	of	of	IN
319	326	nuclear	nuclear	JJ
327	339	factor-kappa	factor-kappa	NN
340	341	B	B	NNP
342	343	(	(	(
343	352	NF-kappaB	NF-kappaB	NNP
352	353	)	)	)
354	357	and	and	CC
358	367	TNF-alpha	TNF-alpha	NNP
368	375	release	release	NN
375	376	.	.	.

377	385	Previous	previous	JJ
386	393	studies	study	NNS
394	398	have	have	VBP
399	409	implicated	implicate	VBN
410	420	activation	activation	NN
421	423	of	of	IN
424	428	both	both	CC
429	436	protein	protein	NN
437	443	kinase	kinase	NNP
444	445	C	C	NNP
446	447	(	(	(
447	450	PKC	PKC	NNP
450	451	)	)	)
452	455	and	and	CC
456	463	protein	protein	NN
464	472	tyrosine	tyrosine	NN
473	480	kinases	kinase	NNS
481	482	(	(	(
482	485	PTK	PTK	NNP
485	486	)	)	)
487	489	in	in	IN
490	501	LPS-induced	lps-induced	JJ
502	511	NF-kappaB	NF-kappaB	NNP
512	522	activation	activation	NN
523	526	and	and	CC
527	536	TNF-alpha	TNF-alpha	NNP
537	547	production	production	NN
547	548	.	.	.

549	551	We	we	PRP
552	564	hypothesized	hypothesize	VBD
565	569	that	that	IN
570	580	inhibition	inhibition	NN
581	583	of	of	IN
584	590	either	either	CC
591	594	PKC	PKC	NNP
595	597	or	or	CC
598	601	PTK	PTK	NNP
602	607	would	would	MD
608	616	decrease	decrease	VB
617	628	LPS-induced	lps-induced	JJ
629	638	NF-kappaB	NF-kappaB	NNP
639	642	DNA	DNA	NNP
643	650	binding	binding	NN
651	654	and	and	CC
655	664	TNF-alpha	TNF-alpha	NNP
665	672	release	release	NN
673	675	in	in	IN
676	681	human	human	JJ
682	691	monocytes	monocyte	NNS
691	692	.	.	.

693	702	MATERIALS	MATERIALS	NNP
703	706	AND	and	CC
707	714	METHODS	METHODS	NNP
714	715	:	:	:
716	721	Human	human	JJ
722	731	monocytes	monocyte	NNS
732	736	were	be	VBD
737	747	stimulated	stimulate	VBN
748	752	with	with	IN
753	756	PMA	PMA	NNP
757	758	(	(	(
758	760	50	50	CD
761	766	ng/ml	ng/ml	NN
766	767	)	)	)
768	773	alone	alone	RB
774	776	or	or	CC
777	780	LPS	LPS	NNP
781	782	(	(	(
782	785	100	100	CD
786	791	ng/ml	ng/ml	NN
791	792	)	)	)
793	797	with	with	IN
798	801	and	and	CC
802	809	without	without	IN
810	811	a	a	DT
812	823	nonspecific	nonspecific	JJ
824	840	serine/threonine	serine/threonine	NN
841	848	protein	protein	NN
849	855	kinase	kinase	NNP
856	865	inhibitor	inhibitor	NN
866	879	staurosporine	staurosporine	NN
880	881	(	(	(
881	887	Stauro	Stauro	NNP
887	888	)	)	)
888	889	,	,	,
890	891	a	a	DT
892	900	specific	specific	JJ
901	908	pan-PKC	pan-pkc	NN
909	918	inhibitor	inhibitor	NN
919	938	bisindolylmaleimide	bisindolylmaleimide	NN
939	940	(	(	(
940	943	Bis	Bis	NNP
943	944	)	)	)
944	945	,	,	,
946	948	or	or	CC
949	951	an	an	DT
952	961	inhibitor	inhibitor	NN
962	964	of	of	IN
965	968	PTK	PTK	NNP
969	978	genistein	genistein	NN
979	980	(	(	(
980	983	Gen	Gen	NNP
983	984	)	)	)
984	985	.	.	.

986	995	TNF-alpha	TNF-alpha	NNP
996	1003	release	release	NN
1004	1006	in	in	IN
1007	1014	culture	culture	NN
1015	1027	supernatants	supernatant	NNS
1028	1031	was	be	VBD
1032	1040	measured	measure	VBN
1041	1043	by	by	IN
1044	1046	an	an	DT
1047	1052	ELISA	ELISA	NNP
1052	1053	.	.	.

1054	1063	NF-kappaB	NF-kappaB	NNP
1064	1067	DNA	DNA	NNP
1068	1075	binding	binding	NN
1076	1079	was	be	VBD
1080	1089	evaluated	evaluate	VBN
1090	1092	by	by	IN
1093	1108	electrophoretic	electrophoretic	JJ
1109	1117	mobility	mobility	NN
1118	1123	shift	shift	NN
1124	1129	assay	assay	NN
1129	1130	.	.	.

1131	1138	RESULTS	results	NNS
1138	1139	:	:	:
1140	1143	LPS	LPS	NNP
1144	1153	increased	increase	VBD
1154	1163	NF-kappaB	NF-kappaB	NNP
1164	1167	DNA	DNA	NNP
1168	1175	binding	binding	NN
1176	1179	and	and	CC
1180	1189	TNF-alpha	TNF-alpha	NNP
1190	1197	release	release	NN
1198	1200	in	in	IN
1201	1206	human	human	JJ
1207	1216	monocytes	monocyte	NNS
1216	1217	.	.	.

1218	1229	Nonspecific	nonspecific	JJ
1230	1237	protein	protein	NN
1238	1244	kinase	kinase	NNP
1245	1255	inhibition	inhibition	NN
1256	1265	inhibited	inhibit	VBD
1266	1275	NF-kappaB	NF-kappaB	NNP
1276	1286	activation	activation	NN
1287	1290	and	and	CC
1291	1300	TNF-alpha	TNF-alpha	NNP
1301	1308	release	release	NN
1308	1309	,	,	,
1310	1315	while	while	IN
1316	1324	specific	specific	JJ
1325	1328	PKC	PKC	NNP
1329	1339	inhibition	inhibition	NN
1340	1344	with	with	IN
1345	1348	Bis	Bis	NNP
1349	1352	had	have	VBD
1353	1355	no	no	DT
1356	1362	effect	effect	NN
1363	1365	on	on	IN
1366	1377	LPS-induced	lps-induced	JJ
1378	1387	NF-kappaB	NF-kappaB	NNP
1388	1391	DNA	DNA	NNP
1392	1399	binding	binding	NN
1400	1402	or	or	CC
1403	1412	TNF-alpha	TNF-alpha	NNP
1413	1420	release	release	NN
1420	1421	.	.	.

1422	1425	PTK	PTK	NNP
1426	1436	inhibition	inhibition	NN
1437	1441	with	with	IN
1442	1445	Gen	Gen	NNP
1446	1456	attenuated	attenuate	VBD
1457	1461	both	both	CC
1462	1473	LPS-induced	lps-induced	JJ
1474	1483	NF-kappaB	NF-kappaB	NNP
1484	1487	DNA	DNA	NNP
1488	1495	binding	binding	NN
1496	1499	and	and	CC
1500	1509	TNF-alpha	TNF-alpha	NNP
1510	1520	production	production	NN
1521	1523	in	in	IN
1524	1529	human	human	JJ
1530	1539	monocytes	monocyte	NNS
1539	1540	.	.	.

1541	1547	Direct	direct	JJ
1548	1558	activation	activation	NN
1559	1561	of	of	IN
1562	1565	PKC	PKC	NNP
1566	1570	with	with	IN
1571	1574	PMA	PMA	NNP
1575	1582	induced	induce	VBD
1583	1587	both	both	CC
1588	1597	NF-kappaB	NF-kappaB	NNP
1598	1608	activation	activation	NN
1609	1612	and	and	CC
1613	1622	TNF-alpha	TNF-alpha	NNP
1623	1633	production	production	NN
1634	1636	by	by	IN
1637	1642	human	human	JJ
1643	1652	monocytes	monocyte	NNS
1652	1653	.	.	.

1654	1665	CONCLUSIONS	conclusions	NNS
1665	1666	:	:	:
1667	1672	These	these	DT
1673	1680	results	result	NNS
1681	1688	suggest	suggest	VBP
1689	1693	that	that	IN
1694	1705	LPS-induced	lps-induced	JJ
1706	1715	NF-kappaB	NF-kappaB	NNP
1716	1726	activation	activation	NN
1727	1730	and	and	CC
1731	1740	TNF-alpha	TNF-alpha	NNP
1741	1748	release	release	NN
1749	1751	in	in	IN
1752	1757	human	human	JJ
1758	1767	monocytes	monocyte	NNS
1768	1771	are	be	VBP
1772	1783	independent	independent	JJ
1784	1786	of	of	IN
1787	1790	PKC	PKC	NNP
1791	1799	activity	activity	NN
1799	1800	.	.	.

1801	1812	Furthermore	furthermore	RB
1812	1813	,	,	,
1814	1817	our	our	PRP$
1818	1825	results	result	NNS
1826	1833	provide	provide	VBP
1834	1842	evidence	evidence	NN
1843	1847	that	that	IN
1848	1851	PTK	PTK	NNP
1852	1857	plays	play	VBZ
1858	1859	a	a	DT
1860	1864	role	role	NN
1865	1867	in	in	IN
1868	1879	LPS-induced	lps-induced	JJ
1880	1889	NF-kappaB	NF-kappaB	NNP
1890	1900	activation	activation	NN
1901	1904	and	and	CC
1905	1914	TNF-alpha	TNF-alpha	NNP
1915	1922	release	release	NN
1923	1925	in	in	IN
1926	1931	human	human	JJ
1932	1941	monocytes	monocyte	NNS
1942	1945	and	and	CC
1946	1950	thus	thus	RB
1951	1956	could	could	MD
1957	1959	be	be	VB
1960	1961	a	a	DT
1962	1971	potential	potential	JJ
1972	1983	therapeutic	therapeutic	JJ
1984	1990	target	target	NN
1991	1993	in	in	IN
1994	2006	inflammatory	inflammatory	JJ
2007	2014	states.	states.	NN
2015	2024	Copyright	Copyright	NNP
2025	2029	1999	1999	CD
2030	2038	Academic	Academic	NNP
2039	2044	Press	Press	NNP
2044	2045	.	.	.