PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
15120476-7	2004	Both CGRP (1 x 10(-7) to 1 x 10(-5) M) and capsaicin (1 x 10-(8) to 1 x 10(-6)M) significantly inhibited basal TGFalpha release in a dose-dependent fashion that ranged from -20% to -39%.	Capsaicin	43-52	transforming growth factor alpha	Rattus norvegicus	111-119	
15120476-8	2004	In contrast, capsaicin-induced sensory denervation caused significant increases in both basal TGFalpha release and TGFalpha tissue content.	Capsaicin	13-22	transforming growth factor alpha	Rattus norvegicus	94-102	
15120476-8	2004	In contrast, capsaicin-induced sensory denervation caused significant increases in both basal TGFalpha release and TGFalpha tissue content.	Capsaicin	13-22	transforming growth factor alpha	Rattus norvegicus	115-123	
15120476-9	2004	CONCLUSION: Function interactions between TGFalpha and gastric sensory neurons are suggested by the observations that (1) TGFalpha stimulated CGRP release from gastric sensory neurons; (2) CGRP and acute capsaicin treatment inhibited TGFalpha release and; (3) capsaicin-induced sensory denervation caused significant increases in both gastric TGFalpha basal release and tissue content.	Capsaicin	204-213	transforming growth factor alpha	Rattus norvegicus	42-50	
15120476-9	2004	CONCLUSION: Function interactions between TGFalpha and gastric sensory neurons are suggested by the observations that (1) TGFalpha stimulated CGRP release from gastric sensory neurons; (2) CGRP and acute capsaicin treatment inhibited TGFalpha release and; (3) capsaicin-induced sensory denervation caused significant increases in both gastric TGFalpha basal release and tissue content.	Capsaicin	260-269	transforming growth factor alpha	Rattus norvegicus	42-50	
15120476-9	2004	CONCLUSION: Function interactions between TGFalpha and gastric sensory neurons are suggested by the observations that (1) TGFalpha stimulated CGRP release from gastric sensory neurons; (2) CGRP and acute capsaicin treatment inhibited TGFalpha release and; (3) capsaicin-induced sensory denervation caused significant increases in both gastric TGFalpha basal release and tissue content.	Capsaicin	260-269	transforming growth factor alpha	Rattus norvegicus	122-130	
15120476-9	2004	CONCLUSION: Function interactions between TGFalpha and gastric sensory neurons are suggested by the observations that (1) TGFalpha stimulated CGRP release from gastric sensory neurons; (2) CGRP and acute capsaicin treatment inhibited TGFalpha release and; (3) capsaicin-induced sensory denervation caused significant increases in both gastric TGFalpha basal release and tissue content.	Capsaicin	260-269	transforming growth factor alpha	Rattus norvegicus	122-130	
15120476-9	2004	CONCLUSION: Function interactions between TGFalpha and gastric sensory neurons are suggested by the observations that (1) TGFalpha stimulated CGRP release from gastric sensory neurons; (2) CGRP and acute capsaicin treatment inhibited TGFalpha release and; (3) capsaicin-induced sensory denervation caused significant increases in both gastric TGFalpha basal release and tissue content.	Capsaicin	260-269	transforming growth factor alpha	Rattus norvegicus	122-130	
12586218-0	2003	Transforming growth factor alpha-mediated gastroprotection against stress ulceration in the rat: involvement of capsaicin-sensitive sensory neurons.	Capsaicin	112-121	transforming growth factor alpha	Rattus norvegicus	0-32	
12586218-14	2003	We conclude that: 1) TGF alpha caused dose-dependent gastroprotection against WRS ulceration, 2) TGF alpha-mediated gastric mucosal protection was prevented by capsaicin-induced sensory denervation and, 3) stress-induced injury was associated with significant reduction in gastric content of both TGF alpha and CGRP.	Capsaicin	160-169	transforming growth factor alpha	Rattus norvegicus	21-30	
12586218-14	2003	We conclude that: 1) TGF alpha caused dose-dependent gastroprotection against WRS ulceration, 2) TGF alpha-mediated gastric mucosal protection was prevented by capsaicin-induced sensory denervation and, 3) stress-induced injury was associated with significant reduction in gastric content of both TGF alpha and CGRP.	Capsaicin	160-169	transforming growth factor alpha	Rattus norvegicus	97-106	
12586218-14	2003	We conclude that: 1) TGF alpha caused dose-dependent gastroprotection against WRS ulceration, 2) TGF alpha-mediated gastric mucosal protection was prevented by capsaicin-induced sensory denervation and, 3) stress-induced injury was associated with significant reduction in gastric content of both TGF alpha and CGRP.	Capsaicin	160-169	transforming growth factor alpha	Rattus norvegicus	97-106	
11989832-0	2002	Capsaicin-sensitive nerve fibres induce epithelial cell proliferation, inflammatory cell immigration and transforming growth factor-alpha expression in the rat colonic mucosa in vivo.	Capsaicin	0-9	transforming growth factor alpha	Rattus norvegicus	105-137	
11989832-2	2002	The aim of our study was to evaluate the effects of capsaicin-sensitive nerve fibres in rat colonic mucosa on epithelial cell proliferation and transforming growth factor-alpha (TGFalpha) expression, which is important in mucosal defence, protection and repair.	Capsaicin	52-61	transforming growth factor alpha	Rattus norvegicus	144-176	
11989832-2	2002	The aim of our study was to evaluate the effects of capsaicin-sensitive nerve fibres in rat colonic mucosa on epithelial cell proliferation and transforming growth factor-alpha (TGFalpha) expression, which is important in mucosal defence, protection and repair.	Capsaicin	52-61	transforming growth factor alpha	Rattus norvegicus	178-186	
11989832-10	2002	A 2-fold increase of TGFalpha mRNA and a 10-fold increase of TGFalpha protein expression were obtained 2-12 h after capsaicin enemas.	Capsaicin	116-125	transforming growth factor alpha	Rattus norvegicus	21-29	
11989832-10	2002	A 2-fold increase of TGFalpha mRNA and a 10-fold increase of TGFalpha protein expression were obtained 2-12 h after capsaicin enemas.	Capsaicin	116-125	transforming growth factor alpha	Rattus norvegicus	61-69	
11989832-12	2002	CONCLUSION: Capsaicin-sensitive nerve fibres modulate epithelial cell proliferation and TGFalpha expression in colonic mucosa as well as a migration of inflammatory cells into the colonic mucosa.	Capsaicin	12-21	transforming growth factor alpha	Rattus norvegicus	88-96