PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
25088915-4	2014	We found that CB1, NGF receptor tyrosine kinase A (trkA), and TRPV1 are present in cultured adult mouse small- to medium-sized afferent neurons and treatment with NGF (100ng/ml) for 30 min significantly increased the number of neurons that responded to capsaicin (as indicated by increased intracellular Ca(2 +) concentration).	Capsaicin	253-262	nerve growth factor	Mus musculus	19-22	
6182949-4	1982	Supplementation of guinea pigs with mouse NGF completely prevented capsaicin-induced substance P depletion.	Capsaicin	67-76	nerve growth factor	Mus musculus	42-45	
30260982-10	2018	When neurites of NGF cultured somata were grown in GDNF, capsaicin evoked a lower CGRP release than high potassium, compared to those grown in NGF.	Capsaicin	57-66	nerve growth factor	Mus musculus	17-20	
25088915-4	2014	We found that CB1, NGF receptor tyrosine kinase A (trkA), and TRPV1 are present in cultured adult mouse small- to medium-sized afferent neurons and treatment with NGF (100ng/ml) for 30 min significantly increased the number of neurons that responded to capsaicin (as indicated by increased intracellular Ca(2 +) concentration).	Capsaicin	253-262	nerve growth factor	Mus musculus	163-166	
25088915-7	2014	Blocking PI3 kinase activity also attenuated the NGF-induced increase in the number of neurons that responded to capsaicin.	Capsaicin	113-122	nerve growth factor	Mus musculus	49-52	
12231491-8	2002	Furthermore, CCSP-NGF-tg mice developed an increased reactivity of sensory neurons in response to inhaled capsaicin demonstrating NGF-mediated neuronal plasticity.	Capsaicin	106-115	nerve growth factor	Mus musculus	18-21	
16914685-1	2006	Nerve growth factor (NGF) has been implicated as an effector of inflammatory pain because it sensitizes primary afferents to noxious thermal, mechanical, and chemical [e.g., capsaicin, a transient receptor potential vanilloid receptor 1 (TRPV1) agonist] stimuli and because NGF levels increase during inflammation.	Capsaicin	174-183	nerve growth factor	Mus musculus	0-19	
16914685-1	2006	Nerve growth factor (NGF) has been implicated as an effector of inflammatory pain because it sensitizes primary afferents to noxious thermal, mechanical, and chemical [e.g., capsaicin, a transient receptor potential vanilloid receptor 1 (TRPV1) agonist] stimuli and because NGF levels increase during inflammation.	Capsaicin	174-183	nerve growth factor	Mus musculus	21-24	
16914685-1	2006	Nerve growth factor (NGF) has been implicated as an effector of inflammatory pain because it sensitizes primary afferents to noxious thermal, mechanical, and chemical [e.g., capsaicin, a transient receptor potential vanilloid receptor 1 (TRPV1) agonist] stimuli and because NGF levels increase during inflammation.	Capsaicin	174-183	nerve growth factor	Mus musculus	274-277	
16777323-4	2006	Treatment of rats with NGF over a 13-day period produced a significant increase in capsaicin-evoked iCGRP release from isolated biopsies of hindpaw skin, as assessed by in vitro superfusion and RIA.	Capsaicin	83-92	nerve growth factor	Mus musculus	23-26	
16777323-6	2006	This NGF enhancement of capsaicin-evoked iCGRP release was not due solely to increases in peripheral iCGRP content since only the 1mg/kg dose of NGF elevated cutaneous pools of iCGRP, whereas both doses significantly increased capsaicin-evoked peptide release.	Capsaicin	24-33	nerve growth factor	Mus musculus	5-8	
16777323-6	2006	This NGF enhancement of capsaicin-evoked iCGRP release was not due solely to increases in peripheral iCGRP content since only the 1mg/kg dose of NGF elevated cutaneous pools of iCGRP, whereas both doses significantly increased capsaicin-evoked peptide release.	Capsaicin	24-33	nerve growth factor	Mus musculus	145-148	
16777323-6	2006	This NGF enhancement of capsaicin-evoked iCGRP release was not due solely to increases in peripheral iCGRP content since only the 1mg/kg dose of NGF elevated cutaneous pools of iCGRP, whereas both doses significantly increased capsaicin-evoked peptide release.	Capsaicin	227-236	nerve growth factor	Mus musculus	5-8	
16777323-7	2006	Moreover, NGF also enhanced capsaicin-evoked thermal hyperalgesia under similar dose- and time-related conditions.	Capsaicin	28-37	nerve growth factor	Mus musculus	10-13	
16777323-8	2006	Collectively, the chronic administration of NGF not only increases capsaicin-evoked hyperalgesia, but also significantly primes peripheral fibers to enhanced peptidergic exocytosis following activation of the capsaicin receptor.	Capsaicin	67-76	nerve growth factor	Mus musculus	44-47	
12231491-8	2002	Furthermore, CCSP-NGF-tg mice developed an increased reactivity of sensory neurons in response to inhaled capsaicin demonstrating NGF-mediated neuronal plasticity.	Capsaicin	106-115	nerve growth factor	Mus musculus	130-133	
11710915-7	2001	Additional studies also demonstrated a significant in vivo upregulation of keratinocyte nerve growth factor expression in murine epidermis after the topical application of the neuropeptide releasing agent capsaicin.	Capsaicin	205-214	nerve growth factor	Mus musculus	88-107	
10976461-0	2000	[The effect of anti-NGF and NGF on the responses to noxious heat in mice treated with capsaicin in the neonatal period].	Capsaicin	86-95	nerve growth factor	Mus musculus	15-31	
10976461-7	2000	Withdrawal latencies of the mice treated with both capsaicin and anti-NGF were significantly retarded compared with those of the animals treated with only capsaicin.	Capsaicin	155-164	nerve growth factor	Mus musculus	70-73	
10976461-9	2000	On the other hand, the latencies of the mice treated with both capsaicin and NGF were short compared with those of the animals treated with only capsaicin.	Capsaicin	145-154	nerve growth factor	Mus musculus	77-80	
9476901-7	1998	CCSP-NGF mice were more sensitive than normal mice to capsaicin-induced increases in respiratory system resistance, demonstrating that the increased sensory innervation led to a change in airway function.	Capsaicin	54-63	nerve growth factor	Mus musculus	5-8	
7697868-7	1994	The development of capsaicin sensitivity in neural crest cultures was dependent on time in culture and on the presence of NGF.	Capsaicin	19-28	nerve growth factor	Mus musculus	122-125	
33806699-0	2021	Ca2+ Signalling Induced by NGF Identifies a Subset of Capsaicin-Excitable Neurons Displaying Enhanced Chemo-Nociception in Dorsal Root Ganglion Explants from Adult pirt-GCaMP3 Mouse.	Capsaicin	54-63	nerve growth factor	Mus musculus	27-30	
33806699-2	2021	Nerve growth factor (NGF) sensitises TRPV1 to capsaicin (CAPS), modulates nociceptor excitability and induces thermal hyperalgesia, but cellular mechanisms remain unclear.	Capsaicin	46-55	nerve growth factor	Mus musculus	0-19	
33806699-2	2021	Nerve growth factor (NGF) sensitises TRPV1 to capsaicin (CAPS), modulates nociceptor excitability and induces thermal hyperalgesia, but cellular mechanisms remain unclear.	Capsaicin	46-55	nerve growth factor	Mus musculus	21-24	
33806699-2	2021	Nerve growth factor (NGF) sensitises TRPV1 to capsaicin (CAPS), modulates nociceptor excitability and induces thermal hyperalgesia, but cellular mechanisms remain unclear.	Capsaicin	57-61	nerve growth factor	Mus musculus	0-19	
33806699-2	2021	Nerve growth factor (NGF) sensitises TRPV1 to capsaicin (CAPS), modulates nociceptor excitability and induces thermal hyperalgesia, but cellular mechanisms remain unclear.	Capsaicin	57-61	nerve growth factor	Mus musculus	21-24