PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
21075083-13	2011	Prenatal cocaine enhanced the CORT response to CRH/saline injections up to 60 min in males but not in females.	Cocaine	9-16	corticotropin releasing hormone	Homo sapiens	47-50	
21843515-0	2012	Relevance of both type-1 and type-2 corticotropin releasing factor receptors in stress-induced relapse to cocaine seeking behaviour.	Cocaine	106-113	corticotropin releasing hormone	Homo sapiens	36-66	
21306838-8	2011	Cocaine use in the 30 days following CRH administration was measured.	Cocaine	0-7	corticotropin releasing hormone	Homo sapiens	37-40	
21306838-10	2011	Cocaine-dependent individuals also had a greater subjective stress response to CRH than controls (p<0.01).	Cocaine	0-7	corticotropin releasing hormone	Homo sapiens	79-82	
21306838-12	2011	Finally, there was a trend for an indirect effect of neuroticism on frequency of cocaine use through subjective reactivity to CRH.	Cocaine	81-88	corticotropin releasing hormone	Homo sapiens	126-129	
18184795-0	2008	Dopamine and corticotropin-releasing factor synergistically alter basolateral amygdala-to-medial prefrontal cortex synaptic transmission: functional switch after chronic cocaine administration.	Cocaine	170-177	corticotropin releasing hormone	Homo sapiens	13-43	
19717245-4	2009	Cocaine-dependent participants received 1 microg/kg of corticotropin releasing hormone intravenously, underwent the Trier Social Stress Task, and were exposed to drug cues and various measures obtained.	Cocaine	0-7	corticotropin releasing hormone	Homo sapiens	55-86	
19349312-0	2009	Response to corticotropin-releasing hormone infusion in cocaine-dependent individuals.	Cocaine	56-63	corticotropin releasing hormone	Homo sapiens	12-43	
19349312-2	2009	Little is known about the response of cocaine-dependent individuals to CRH administration.	Cocaine	38-45	corticotropin releasing hormone	Homo sapiens	71-74	
19349312-3	2009	OBJECTIVE: The primary objective was to examine the hypothalamic-pituitary-adrenal axis and the subjective and physiologic response to CRH in cocaine-dependent individuals and controls.	Cocaine	142-149	corticotropin releasing hormone	Homo sapiens	135-138	
20570051-0	2010	Influence of cocaine dependence and early life stress on pituitary-adrenal axis responses to CRH and the Trier social stressor.	Cocaine	13-20	corticotropin releasing hormone	Homo sapiens	93-96	
20570051-2	2010	In this study, the neuroendocrine, physiologic (HR), and subjective responses to corticotropin releasing hormone (CRH) and the Trier Social Stress Task (TSST) in individuals with cocaine dependence, with (n=21)/without early life stress (n=21), non-dependent individuals with early life stress (n=22), and a control group were examined (n=21).	Cocaine	179-186	corticotropin releasing hormone	Homo sapiens	114-117	
20570051-10	2010	In response to CRH, subjective stress and craving were positively correlated in cocaine-dependent subjects regardless of early life stress history, while stress and craving following the TSST were correlated only in cocaine-dependent subjects without a history of early life stress.	Cocaine	80-87	corticotropin releasing hormone	Homo sapiens	15-18	
19349312-10	2009	RESULTS: Cocaine-dependent individuals exhibited higher stress (P < .001) and craving for CRH compared with controls.	Cocaine	9-16	corticotropin releasing hormone	Homo sapiens	93-96	
19349312-12	2009	Intravenous CRH elevated heart rates in all groups; however, cocaine-dependent women demonstrated a significantly higher heart rate at all time points (P = .05).	Cocaine	61-68	corticotropin releasing hormone	Homo sapiens	12-15	
19349312-15	2009	The corticotropin response to CRH was independent of sex and cocaine dependence.	Cocaine	61-68	corticotropin releasing hormone	Homo sapiens	30-33	
19349312-18	2009	The lack of difference in hypothalamic pituitary adrenal axis response between the cocaine-dependent and control groups suggests that the heart rate and subjective responses in the cocaine group may be mediated by sensitization of nonhypothalamic stress-responsive CRH systems.	Cocaine	181-188	corticotropin releasing hormone	Homo sapiens	265-268	
16822557-0	2006	A role for corticotropin-releasing factor in the long-term expression of behavioral sensitization to cocaine.	Cocaine	101-108	corticotropin releasing hormone	Homo sapiens	11-41	
17702903-10	2007	The results point to interactions between a subpopulation of kappa opioid receptors and central corticotropin-releasing factor and noradrenergic stress systems in the reinstatement of cocaine seeking induced by kappa agonists.	Cocaine	184-191	corticotropin releasing hormone	Homo sapiens	96-126	
16822557-1	2006	Corticotropin-releasing factor (CRF) has been implicated in a number of the behavioral and biochemical effects of cocaine.	Cocaine	114-121	corticotropin releasing hormone	Homo sapiens	0-30	
16987545-0	2006	A study of the lasting effects of cocaine pre-exposure on anxiety-like behaviors under baseline conditions and in response to central injections of corticotropin-releasing factor.	Cocaine	34-41	corticotropin releasing hormone	Homo sapiens	148-178	
17004937-0	2006	Cocaine withdrawal enhances long-term potentiation induced by corticotropin-releasing factor at central amygdala glutamatergic synapses via CRF, NMDA receptors and PKA.	Cocaine	0-7	corticotropin releasing hormone	Homo sapiens	62-92	
16987545-2	2006	The stress-related neuropeptide, corticotropin-releasing factor (CRF), has been implicated in the anxiogenic effects of cocaine withdrawal, as well as in some of the long-lasting effects of cocaine.	Cocaine	120-127	corticotropin releasing hormone	Homo sapiens	33-63	
16987545-2	2006	The stress-related neuropeptide, corticotropin-releasing factor (CRF), has been implicated in the anxiogenic effects of cocaine withdrawal, as well as in some of the long-lasting effects of cocaine.	Cocaine	190-197	corticotropin releasing hormone	Homo sapiens	33-63	
12782395-7	2003	Our findings of an increase in amygdalar CRH gene expression during early cocaine withdrawal support a potentially important role for amygdalar CRH activity in the anxiogenic and aversive consequences of withdrawal from cocaine during a time when humans are most subject to relapse.	Cocaine	74-81	corticotropin releasing hormone	Homo sapiens	41-44	
15784652-0	2005	Acute and chronic corticotropin-releasing factor 1 receptor blockade inhibits cocaine-induced dopamine release: correlation with dopamine neuron activity.	Cocaine	78-85	corticotropin releasing hormone	Homo sapiens	18-48	
16674926-1	2006	Apart from activation of the brain reward system, cocaine administration influences the activity of the hypothalamo-pituitary-adrenal (HPA) axis by affecting CRH neurons in the paraventricular nucleus of the hypothalamus (PVN).	Cocaine	50-57	corticotropin releasing hormone	Homo sapiens	158-161	
12023504-6	2002	Corticotropin-releasing hormone (CRH) seems to play a more prominent role in the maintenance of cocaine self-administration and may even be involved in the incentive motivation for the drug.	Cocaine	96-103	corticotropin releasing hormone	Homo sapiens	0-31	
12686370-0	2003	CSF CRH in abstinent cocaine-dependent patients.	Cocaine	21-28	corticotropin releasing hormone	Homo sapiens	4-7	
12023504-6	2002	Corticotropin-releasing hormone (CRH) seems to play a more prominent role in the maintenance of cocaine self-administration and may even be involved in the incentive motivation for the drug.	Cocaine	96-103	corticotropin releasing hormone	Homo sapiens	33-36	
12023504-7	2002	Corticosterone and CRH are also critical for the stress- and cue-induced reinstatement of extinguished cocaine-seeking behavior.	Cocaine	103-110	corticotropin releasing hormone	Homo sapiens	19-22	
12204195-4	2002	Current therapeutic strategies focus on counteracting the cocaine effects directly on the dopamine transporter, through post-synaptic D(1), D(2) or D(3) receptors or through the glutamatergic, serotoninergic, opioid or corticotropin-releasing hormone systems.	Cocaine	58-65	corticotropin releasing hormone	Homo sapiens	219-250	
33660857-5	2021	Stressors trigger cocaine seeking by activating noradrenergic projections originating in the lateral tegmentum that innervate the bed nucleus of the stria terminalis to produce beta adrenergic receptor-dependent regulation of neurons that release corticotropin releasing factor (CRF) into the ventral tegmental area (VTA).	Cocaine	18-25	corticotropin releasing hormone	Homo sapiens	247-277	
1547754-2	1992	Cocaine and lidocaine release corticotropin-releasing hormone (CRH) in hypothalamic cell cultures, and this effect is also blocked by CBZ.	Cocaine	0-7	corticotropin releasing hormone	Homo sapiens	63-66	
1547754-5	1992	CRH (at doses of 5, 10, and 100 micrograms) potentiated cocaine-kindled seizure development and lethality in a dose-related fashion.	Cocaine	56-63	corticotropin releasing hormone	Homo sapiens	0-3	
1547754-8	1992	The findings suggest a potentially important role for CRH in exacerbating cocaine-seizure evolution and its associated lethality and confirm the inhibition of cocaine kindling and lethality by CBZ.	Cocaine	74-81	corticotropin releasing hormone	Homo sapiens	54-57	
11750768-9	2002	On the other hand, the self-administration of doses falling on both the ascending and descending limbs of the cocaine dose-response curve can each be attenuated by drugs that block central corticotropin-releasing hormone (CRH) receptors.	Cocaine	110-117	corticotropin releasing hormone	Homo sapiens	189-220	
11750768-9	2002	On the other hand, the self-administration of doses falling on both the ascending and descending limbs of the cocaine dose-response curve can each be attenuated by drugs that block central corticotropin-releasing hormone (CRH) receptors.	Cocaine	110-117	corticotropin releasing hormone	Homo sapiens	222-225	
11750768-10	2002	Finally, corticosterone and CRH are also critical for the stress- and cue-induced reinstatement of extinguished cocaine-seeking behavior, demonstrating an involvement of the HPA axis in the relapse to cocaine use as well.	Cocaine	112-119	corticotropin releasing hormone	Homo sapiens	28-31	
7932162-12	1994	We postulate that cocaine stimulates the release of corticotropin releasing factor and that the cocaine-induced secretion of corticotropin releasing factor increases the amplitude of ACTH pulses, because ACTH pulse frequency was not altered by cocaine.	Cocaine	18-25	corticotropin releasing hormone	Homo sapiens	52-82	
1336674-2	1992	Cocaine has been shown to alter circulating levels of the neurotransmitters, dopamine, norepinephrine, epinephrine, as well as the hypothalamic-pituitary-adrenal axis hormones corticotropin-releasing factor (CRF), adrenocorticotropic hormone (ACTH), and cortisol.	Cocaine	0-7	corticotropin releasing hormone	Homo sapiens	176-206	
27870396-3	2017	Preclinical models have demonstrated increased sensitivity of females to CRF and noradrenergic-induced drug reinstatement compared with males, and, consistent with these findings, human laboratory studies have demonstrated greater sensitivity to corticotropin-releasing hormone (CRH) and noradrenergic stimulation in cocaine-dependent women compared with men.	Cocaine	317-324	corticotropin releasing hormone	Homo sapiens	246-277	
29949237-7	2018	Larry also applied microdialysis to study GABA and glutamate"s role in ethanol dependence and heroin reinforcement, providing in vivo evidence for a sensitization of corticotropin-releasing factor-dependent release of GABA in the central amygdala in withdrawal from chronic ethanol and for a reduction of GABA transmission in the ventral pallidum in heroin but not cocaine intravenous self-administration.	Cocaine	365-372	corticotropin releasing hormone	Homo sapiens	166-196