PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
3035039-10	1987	Insulin had a similar but less pronounced effect on the concentration and composition of lipoproteins secreted in the presence of oleate.	Oleic Acid	130-136	insulin	Homo sapiens	0-7	
2861168-12	1985	Free fatty acids proved effective in increasing monocyte insulin binding (14% with 1 mmol/l oleic acid) in vitro.	Oleic Acid	92-102	insulin	Homo sapiens	57-64	
2872764-2	1986	Oleate, 2 mmol/l, increased the output rates of pancreatic somatostatin, glucagon and insulin.	Oleic Acid	0-6	insulin	Homo sapiens	86-93	
33879968-0	2021	Oleic acid to stearic acid ratio might be a potential marker for insulin resistance in non-obese Japanese.	Oleic Acid	0-10	insulin	Homo sapiens	65-72	
5966104-0	1966	[Action of insulin on intestinal absorption of lipids (research with I-131 labeled oleic acid)].	Oleic Acid	83-93	insulin	Homo sapiens	11-18	
33839491-0	2021	Probiotics-rich emulsion improves insulin signalling in Palmitate/Oleate-challenged human hepatocarcinoma cells through the modulation of Fetuin-A/TLR4-JNK-NF-kappaB pathway.	Oleic Acid	66-72	insulin	Homo sapiens	34-41	
33561215-10	2021	In age- and sex-adjusted models for insulin resistance, MUFAs (OR: 1.26) and oleic acid (OR: 1.25) were positively, and PUFAs (OR: 0.81), particularly linoleic acid (OR: 0.78), were inversely associated with HOMA-IR.	Oleic Acid	77-87	insulin	Homo sapiens	36-43	
33879968-6	2021	The oleic acid/stearic acid ratio exhibited a positive correlation with the logmatic transformed triglyceride/high-density lipoprotein cholesterol ratio and the fasting triglycerides-glucose index, both of which were used as markers for insulin resistance.	Oleic Acid	4-14	insulin	Homo sapiens	237-244	
33879968-10	2021	In conclusion, oleic acid/stearic acid ratio might be a useful marker for insulin resistance in non-obese Japanese subjects.	Oleic Acid	15-25	insulin	Homo sapiens	74-81	
32806641-0	2020	Oleic Acid Protects Against Insulin Resistance by Regulating the Genes Related to the PI3K Signaling Pathway.	Oleic Acid	0-10	insulin	Homo sapiens	28-35	
33631425-0	2021	Oleic Acid and Eicosapentaenoic Acid Reverse Palmitic Acid-induced Insulin Resistance in Human HepG2 Cells via the Reactive Oxygen Species / JUN Pathway.	Oleic Acid	0-10	insulin	Homo sapiens	67-74	
32125563-0	2020	Current perspectives of oleic acid: Regulation of molecular pathways in mitochondrial and endothelial functioning against insulin resistance and diabetes.	Oleic Acid	24-34	insulin	Homo sapiens	122-129	
32806641-11	2020	CONCLUSIONS: Our in vitro results suggest a detrimental role of palmitic acid on the expression of gene related to insulin signaling pathway, with oleic acid being the one with the higher and more beneficial effects.	Oleic Acid	147-157	insulin	Homo sapiens	115-122	
32423875-4	2020	The transdermal insulin permeation was promoted by microwave (2450 MHz/1 mW) > oleic acid (monounsaturated) ~ linoleic acid (double unsaturated bonds).	Oleic Acid	79-89	insulin	Homo sapiens	16-23	
29996652-0	2018	Alginate-C18 Conjugate Nanoparticles Loaded in Tripolyphosphate-Cross-Linked Chitosan-Oleic Acid Conjugate-Coated Calcium Alginate Beads as Oral Insulin Carrier.	Oleic Acid	86-96	insulin	Homo sapiens	145-152	
32694809-4	2019	ELOVL6 promotes an increase in phospholipid oleic acid, which modifies plasma membrane fluidity and enhances insulin signalling.	Oleic Acid	44-54	insulin	Homo sapiens	109-116	
30719005-2	2018	To address this problem, the oxidative stress, endoplasmic reticulum stress, inflammation, apoptosis and their mediator molecules have been investigated in the insulin releasing beta cells exposed to palmitic and/or oleic acid.	Oleic Acid	216-226	insulin	Homo sapiens	160-167	
31840531-4	2019	Insulin resistance was defined by assessing alpha hydroxybutyrate, lynoleoyl glycerolphosphocoline, oleic acid, and insulin (Quantose IR), whereas the presence of NAFLD was defined by serologic determinations (Fibromax) and liver transient elastography (Fibroscan).	Oleic Acid	100-110	insulin	Homo sapiens	0-7	
26923704-13	2016	Linoleic acid, but not oleic acid or the sum of long-chain omega 3 fatty acids (w3), was associated with increased appendicular lean mass and decreased trunk adipose mass and insulin resistance.	Oleic Acid	3-13	insulin	Homo sapiens	175-182	
28584168-6	2017	However, an exposure to palmitate, oleate or their combination reduced insulin-stimulated glucose uptake.	Oleic Acid	35-41	insulin	Homo sapiens	71-78	
29864915-0	2018	Dihydrocurcumin ameliorates the lipid accumulation, oxidative stress and insulin resistance in oleic acid-induced L02 and HepG2 cells.	Oleic Acid	95-105	insulin	Homo sapiens	73-80	
29864915-4	2018	Here, we evaluate the effects of DHC on oleic acid (OA)-induced lipid accumulation, oxidative stress and insulin resistance and the underlying mechanism in L02 and HepG2 cells.	Oleic Acid	40-50	insulin	Homo sapiens	105-112	
29864915-4	2018	Here, we evaluate the effects of DHC on oleic acid (OA)-induced lipid accumulation, oxidative stress and insulin resistance and the underlying mechanism in L02 and HepG2 cells.	Oleic Acid	52-54	insulin	Homo sapiens	105-112	
29290500-2	2018	However, in contrast to the saturated FA (SFA) palmitic acid, the monounsaturated FA (MUFA) oleic acid elicits beneficial effects on insulin sensitivity, and the dietary palmitic acid:oleic acid ratio impacts diabetes risk in humans.	Oleic Acid	92-102	insulin	Homo sapiens	133-140	
29290500-3	2018	Here we review recent mechanistic insights into the beneficial effects of oleic acid compared with palmitic acid on insulin resistance and T2DM, including its anti-inflammatory actions, and its capacity to inhibit endoplasmic reticulum (ER) stress, prevent attenuation of the insulin signaling pathway, and improve beta cell survival.	Oleic Acid	74-84	insulin	Homo sapiens	116-123	
29290500-3	2018	Here we review recent mechanistic insights into the beneficial effects of oleic acid compared with palmitic acid on insulin resistance and T2DM, including its anti-inflammatory actions, and its capacity to inhibit endoplasmic reticulum (ER) stress, prevent attenuation of the insulin signaling pathway, and improve beta cell survival.	Oleic Acid	74-84	insulin	Homo sapiens	276-283	
29064290-0	2017	Quercetin/oleic acid-based G-protein-coupled receptor 40 ligands as new insulin secretion modulators.	Oleic Acid	10-20	insulin	Homo sapiens	72-79	
29064290-2	2017	RESULTS: Starting from quercetin and oleic acid, that have effect on insulin secretion, a small set of hybrid molecules was synthesized.	Oleic Acid	37-47	insulin	Homo sapiens	69-76	
19192424-1	2009	In humans, insulin sensitivity is relatively impaired by diets that are low in oleic acid (OA), a cis monounsaturated fatty acid (MUFA), or rich in trans MUFA or palmitic acid (PA), a saturated fatty acid (FA).	Oleic Acid	79-89	insulin	Homo sapiens	11-18	
25536389-0	2015	Effect of NAD on PARP-mediated insulin sensitivity in oleic acid treated hepatocytes.	Oleic Acid	54-64	insulin	Homo sapiens	31-38	
24353137-8	2014	Total fatty acids and unsaturated fatty acids such as oleic acid and linoleic acid showed an inverse significant correlation with insulin resistance.	Oleic Acid	54-64	insulin	Homo sapiens	130-137	
23460021-0	2013	Oleate prevents saturated-fatty-acid-induced ER stress, inflammation and insulin resistance in skeletal muscle cells through an AMPK-dependent mechanism.	Oleic Acid	0-6	insulin	Homo sapiens	73-80	
23460021-10	2013	CONCLUSIONS/INTERPRETATION: Overall, these findings indicate that oleate prevents ER stress, inflammation and insulin resistance in palmitate-exposed skeletal muscle cells by activating AMPK.	Oleic Acid	66-72	insulin	Homo sapiens	110-117	
26344902-4	2015	In the present study, we demonstrate that oleate preconditioning, as well as coincubation, completely prevented palmitate-induced markers of inflammatory signaling, insulin resistance and cytotoxicity in C2C12 myotubes.	Oleic Acid	42-48	insulin	Homo sapiens	165-172	
26226227-3	2015	Our results suggest that the modulatory role of insulin on the responses of hypothalamic FA-sensing systems to changes in circulating levels of OL or OCT was of minor importance in contrast to the mammalian model.	Oleic Acid	144-146	insulin	Homo sapiens	48-55	
26226227-5	2015	In liver and Brockmann bodies, insulin treatment enhanced the responses to OL or OCT treatment in parameters related to FA sensing.	Oleic Acid	75-77	insulin	Homo sapiens	31-38	
25536389-4	2015	Furthermore, treatment with PJ34 reversed the oleic acid-induced decrease in intracellular NAD concentration, while exogenous NAD protected cells against oleic acid-induced insulin insensitivity.	Oleic Acid	154-164	insulin	Homo sapiens	173-180	
25536389-7	2015	Taken together, these data suggest that NAD depletion by PARP1 activation is essential for the modulation of insulin sensitivity in oleic acid-induced lipotoxicity.	Oleic Acid	132-142	insulin	Homo sapiens	109-116	
25846498-6	2015	Oleic acid suppressed the toxic effects of palmitic acid on ER stress activation, lipoapoptosis and insulin resistance.	Oleic Acid	0-10	insulin	Homo sapiens	100-107	
25846498-9	2015	In conclusion, this is the first study highlighting the activation of S6K1 by palmitic acid as a common and novel mechanism by which its inhibition by oleic acid prevents ER stress, lipoapoptosis and insulin resistance in hepatocytes.	Oleic Acid	151-161	insulin	Homo sapiens	200-207	
22209682-0	2012	Oleic acid activates peroxisome proliferator-activated receptor delta to compensate insulin resistance in steatotic cells.	Oleic Acid	0-10	insulin	Homo sapiens	84-91	
22209682-2	2012	Oleic acid (OA) is known to induce hepatic steatosis with normal insulin sensitivity; however, the mechanism is still unknown.	Oleic Acid	0-10	insulin	Homo sapiens	65-72	
22209682-2	2012	Oleic acid (OA) is known to induce hepatic steatosis with normal insulin sensitivity; however, the mechanism is still unknown.	Oleic Acid	12-14	insulin	Homo sapiens	65-72	
19622194-0	2009	Oleate protects against palmitate-induced insulin resistance in L6 myotubes.	Oleic Acid	0-6	insulin	Homo sapiens	42-49	
19622194-1	2009	Oleate has been shown to protect against palmitate-induced insulin resistance.	Oleic Acid	0-6	insulin	Homo sapiens	59-66	
19622194-2	2009	The present study investigates mechanisms involved in the interaction between oleate and palmitate on insulin-stimulated glucose uptake by L6 skeletal muscle cells.	Oleic Acid	78-84	insulin	Homo sapiens	102-109	
19622194-5	2009	Cells incubated with oleate up to 750 micromol/l maintained a significant increase in insulin-stimulated glucose uptake.	Oleic Acid	21-27	insulin	Homo sapiens	86-93	
19192424-1	2009	In humans, insulin sensitivity is relatively impaired by diets that are low in oleic acid (OA), a cis monounsaturated fatty acid (MUFA), or rich in trans MUFA or palmitic acid (PA), a saturated fatty acid (FA).	Oleic Acid	91-93	insulin	Homo sapiens	11-18	
19083476-1	2008	Oleate (C18:1) is, besides palmitate (C16:0), the most abundant fatty acid in the human diet, and its involvement in the development of insulin resistance is broadly discussed.	Oleic Acid	0-6	insulin	Homo sapiens	136-143	
20409874-5	2007	Insulin suppressed plasma linoleate and oleate similarly in CKD (81%, 84%) and NT subjects (84%, 85%, respectively; P = NS) but less in HT patients (67%, 70%, P &lt; .05 vs. CKD and NT).	Oleic Acid	29-35	insulin	Homo sapiens	0-7	
18281277-0	2008	Oleate reverses palmitate-induced insulin resistance and inflammation in skeletal muscle cells.	Oleic Acid	0-6	insulin	Homo sapiens	34-41	
17804680-8	2007	The insulin response was lower to meals rich in oleic acid or EPA and DHA than to meals rich in palmitic acid or linoleic acid (P &lt; 0.01).	Oleic Acid	48-58	insulin	Homo sapiens	4-11	
17097017-12	2006	Oleate and palmitate treatment did not influence basal glucose transport (without insulin stimulation), whereas insulin-stimulated glucose transport was inhibited after overnight oleate and palmitate treatment in preadipocytes and adipocytes.	Oleic Acid	179-185	insulin	Homo sapiens	112-119	
17922004-7	2007	We also show that oleic acid treatment decreases the insulin sensitivity of heart muscle cells, and this sensitivity is completely restored by transfection with SNAP23.	Oleic Acid	18-28	insulin	Homo sapiens	53-60	
17384440-0	2007	Prolonged treatment of primary hepatocytes with oleate induces insulin resistance through p38 mitogen-activated protein kinase.	Oleic Acid	48-54	insulin	Homo sapiens	63-70	
17097017-13	2006	In 3T3-L1 preadipocytes, insulin resistance could be achieved at 0.125 mmol/L oleate or palmitate (P &lt; 0.05, respectively), and the inhibition was dose dependent.	Oleic Acid	78-84	insulin	Homo sapiens	25-32	
17097017-19	2006	CONCLUSIONS: Oleic acid and palmitic acid may induce insulin resistance in 3T3-L1 adipocytes and preadipocytes.	Oleic Acid	13-23	insulin	Homo sapiens	53-60	
16711601-4	2006	Oleate-treated fat cells also showed exaggerated basal lipolysis and weak response to insulin in both lipolysis regulation and glucose uptake.	Oleic Acid	0-6	insulin	Homo sapiens	86-93	
16920849-0	2006	Pro12Ala polymorphism of the PPARG2 gene is associated with type 2 diabetes mellitus and peripheral insulin sensitivity in a population with a high intake of oleic acid.	Oleic Acid	158-168	insulin	Homo sapiens	100-107	
15935394-0	2005	Mechanisms of oleic acid deterioration in insulin secretion: role in the pathogenesis of type 2 diabetes.	Oleic Acid	14-24	insulin	Homo sapiens	42-49	
15935394-4	2005	Elevated expression of PPI, PDX-1 and GLUT2 was also observed after treatment of the islets with oleic acid, which may partially contribute to the increased basal insulin secretion.	Oleic Acid	97-107	insulin	Homo sapiens	163-170	
15919610-8	2005	In contrast, leptin (10 ng/ml) and insulin (0.60 ng/ml)) stimulated the uptake of oleic acid (7.4+/-2.3 nmol/mg protein) in human adipose cells, SGBS cells by 1.28- and 2.48-fold (P&lt;0.05), respectively.	Oleic Acid	82-92	insulin	Homo sapiens	35-42	
15355510-7	2004	Inhibition of PI 3-kinase blocked insulin- and oleate-induced translocation of IMPDH and reduced oleate-induced lipid accumulation.	Oleic Acid	97-103	insulin	Homo sapiens	34-41	
15734839-3	2005	Studies of palmitic acid and oleic acid metabolism in human myotubes established from control and type 2 diabetic subjects under conditions of acute high concentrations of insulin and/or glucose may solve these questions.	Oleic Acid	29-39	insulin	Homo sapiens	172-179	
15734839-4	2005	Total oleic acid and palmitic acid uptake in myotubes was increased during acute insulin stimulation (P &lt; 0.01) but not under acute, high-glucose concentrations, and no differences were found between the groups.	Oleic Acid	6-16	insulin	Homo sapiens	81-88	
15654918-4	2005	Acute insulin exposure increased (14)C-oleate uptake and levels of free fatty acids (FFA) and triacylglycerol (TAG).	Oleic Acid	39-45	insulin	Homo sapiens	6-13	
15654918-5	2005	Palmitate pre-treatment further increased oleate uptake, both under basal conditions and in the presence of insulin, with a marked increase in the phospholipid (PL) fraction, with a concomitant reduction in oleate oxidation.	Oleic Acid	42-48	insulin	Homo sapiens	108-115	
15448091-3	2004	A 72-h culture of islets in the presence of palmitate or oleate resulted in a marked decrease in glucose-induced insulin release assessed in 1-h static incubations.	Oleic Acid	57-63	insulin	Homo sapiens	113-120	
15723548-0	2005	Oleate-mediated stimulation of microsomal triglyceride transfer protein (MTP) gene promoter: implications for hepatic MTP overexpression in insulin resistance.	Oleic Acid	0-6	insulin	Homo sapiens	140-147	
11272131-6	2001	[3H]oleic acid (OA) uptake in AGAT-overexpressing myotubes increased 34% (P = 0.027) upon insulin stimulation.	Oleic Acid	4-14	insulin	Homo sapiens	90-97	
12670494-7	2003	These data suggest that elevated plasma oleic acid levels observed in obese, insulin-resistant subjects result in endothelial dysfunction, at least in part, through an increase in ET-1 expression.	Oleic Acid	40-50	insulin	Homo sapiens	77-84	
12643112-2	2001	Oleic acid seems to offer a slight advantage over linoleic acid in reducing plasma glucose, insulin levels, total cholesterol, low-density lipoproteins (LDLs), and triglycerides, but may also have atherogenic properties through another mechanism.	Oleic Acid	0-10	insulin	Homo sapiens	92-99	
14713277-0	2004	Oleic acid from cooking oils is associated with lower insulin resistance in the general population (Pizarra study).	Oleic Acid	0-10	insulin	Homo sapiens	54-61	
14713277-13	2004	CONCLUSION: There is an association between the intake of oleic acid, the composition of oleic acid in plasma phospholipids and peripheral insulin action.	Oleic Acid	58-68	insulin	Homo sapiens	139-146	
14713277-13	2004	CONCLUSION: There is an association between the intake of oleic acid, the composition of oleic acid in plasma phospholipids and peripheral insulin action.	Oleic Acid	89-99	insulin	Homo sapiens	139-146	
11137176-3	2001	Palmitic acid (C 16:0) significantly suppressed cell viability, and suppressed insulin secretion at 24 h. Treatment with oleic acid (C 18:1) or linoleic acid (C 18:2) enhanced basal insulin secretion and diminished glucose-stimulated insulin secretion (GSIS) at 48 h. In these groups, there were no differences in cell viability as compared to cells treated without FFA.	Oleic Acid	121-131	insulin	Homo sapiens	79-86	
11137176-3	2001	Palmitic acid (C 16:0) significantly suppressed cell viability, and suppressed insulin secretion at 24 h. Treatment with oleic acid (C 18:1) or linoleic acid (C 18:2) enhanced basal insulin secretion and diminished glucose-stimulated insulin secretion (GSIS) at 48 h. In these groups, there were no differences in cell viability as compared to cells treated without FFA.	Oleic Acid	121-131	insulin	Homo sapiens	182-189	
7926053-3	1994	The rephosphorylation of cytidylyltransferase after an oleate-mediated dephosphorylation and translocation to membranes was increased after 2 min in the presence of insulin or epidermal growth factor by 99% and 76%, respectively, compared with controls.	Oleic Acid	55-61	insulin	Homo sapiens	165-172	
10700478-0	2000	Diabetes and the Mediterranean diet: a beneficial effect of oleic acid on insulin sensitivity, adipocyte glucose transport and endothelium-dependent vasoreactivity.	Oleic Acid	60-70	insulin	Homo sapiens	74-81	
10700478-2	2000	We examined the effect of an oleic-acid-rich diet on insulin resistance and endothelium-dependent vasoreactivity in type 2 diabetes.	Oleic Acid	29-39	insulin	Homo sapiens	53-60	
10700478-8	2000	Insulin-stimulated (1 ng/ml) glucose transport was significantly greater on the oleic- acid-rich diet (0.56+/-0.17 vs. 0.29+/-0.14 nmol/10(5) cells/3 min, p&lt;0.0001).	Oleic Acid	80-91	insulin	Homo sapiens	0-7	
7745004-4	1995	Exposure to 0.125 mmol/L palmitate or oleate for 48 h during tissue culture (RPMI-1640 and 5.5 mmol/L glucose) inhibited the postculture insulin response to 27 mmol/L glucose by 40% and 42% (P &lt; 0.01 for difference).	Oleic Acid	38-44	insulin	Homo sapiens	137-144	
7827358-1	1994	The influence of elevated levels of oleate on insulin-stimulated 3-0-methylglucose transport was assessed in vitro, in isolated skeletal muscle obtained from patients with type 2 (non-insulin-dependent) diabetes mellitus (n = 7) and control subjects (n = 8).	Oleic Acid	36-42	insulin	Homo sapiens	46-53	
10830281-9	2000	The addition of exogenous oleate or palmitate potentiated glucose-stimulated insulin secretion 2-fold and was unaffected by PMA-induced down-regulation.	Oleic Acid	26-32	insulin	Homo sapiens	77-84	
10767564-1	2000	The purpose of this study was to evaluate the effectiveness and the toxicity of polyunsaturated fatty acid, such as oleic acid, eicosapentaenoic acid (DHA), as potential absorption enhancer for rectal delivery of insulin, using a water-in-oil-in water (W/O/W) multiple emulsion.	Oleic Acid	116-126	insulin	Homo sapiens	213-220	
10471131-4	1999	However, we observed that obese hypertensive patients have elevated plasma concentrations of non-esterified fatty acids (NEFAs), including oleic acid, which are highly resistant to suppression by insulin.	Oleic Acid	139-149	insulin	Homo sapiens	196-203	
9300238-3	1997	We tested this hypothesis by assessing the chronic effect of oleic acid on glucose metabolism and its relationship with glucose-induced insulin release in beta HC9 cells in tissue culture.	Oleic Acid	61-71	insulin	Homo sapiens	136-143	
8914923-4	1996	Insulin also reduced [3H]oleic acid uptake up to 35%, depending on insulin concentration and decreased the amount of fatty acid esterified into the phospholipids and neutral lipids by 28 and 70%, respectively.	Oleic Acid	25-35	insulin	Homo sapiens	0-7	
8914923-7	1996	Hence, insulin altered not only fatty acid uptake, as determined by cis-parinaric and oleic acid uptake, but also altered the intracellular oleic acid esterification.	Oleic Acid	86-96	insulin	Homo sapiens	7-14	
8914923-7	1996	Hence, insulin altered not only fatty acid uptake, as determined by cis-parinaric and oleic acid uptake, but also altered the intracellular oleic acid esterification.	Oleic Acid	140-150	insulin	Homo sapiens	7-14	
8941640-6	1996	Oleate, but not octanoate, requires carnitine binding to gain access to the mitochondrial matrix; hence, if glucose and/or insulin limit long-chain fatty acid entrance into the mitochondria, then, during the clamp, long-chain acylcarnitine formation should be decreased, causing a decrease in oleate, but not octanoate, oxidation.	Oleic Acid	0-6	insulin	Homo sapiens	123-130	
8825422-9	1996	Both oleic acid and PMA potentiated glucose-induced insulin release but oleic acid, in contrast to PMA, was unable to initiate insulin release in the presence of substimulatory concentrations of glucose.	Oleic Acid	5-15	insulin	Homo sapiens	52-59	
35406631-0	2022	Psoralen Suppresses Lipid Deposition by Alleviating Insulin Resistance and Promoting Autophagy in Oleate-Induced L02 Cells.	Oleic Acid	98-104	insulin	Homo sapiens	52-59	
34704121-11	2022	CONCLUSIONS/INTERPRETATION: Lipid-induced myocellular insulin resistance is likely more pronounced with palmitate than with oleate and is associated with PKC isoforms activation and inhibitory insulin signalling.	Oleic Acid	124-130	insulin	Homo sapiens	193-200	
34446138-0	2021	Stearoyl CoA Desaturase 1 and Inositol-Requiring Protein 1alpha Determine the Efficiency of Oleic Acid in Alleviating Silica Nanoparticle-Induced Insulin Resistance.	Oleic Acid	92-102	insulin	Homo sapiens	146-153	
8299435-10	1993	Higher intakes of saturated fat, oleic acid, and linoleic acid were each positively related to higher fasting insulin values.	Oleic Acid	33-43	insulin	Homo sapiens	110-117	
16353347-8	1993	Similarly preincubation with 2.0 mM oleate, which, unlike palmitate, is not known to produce protein acylation, resulted in proportional decreases in insulin receptor binding and receptor-mediated internalization and degradation.	Oleic Acid	36-42	insulin	Homo sapiens	150-157	
1660268-10	1991	In addition, in the presence of a sustained increase in oleic acid concentration, there is a decrease in the action of insulin to inhibit triacylglycerol secretion.	Oleic Acid	56-66	insulin	Homo sapiens	119-126	
34136157-3	2021	An insulin-resistant HepG2 cell model induced by glucose, fructose, oleic acid, and palmitic acid was adopted to investigate the effects of maca extracts on regulating glucose and lipid metabolism in this study.	Oleic Acid	68-78	insulin	Homo sapiens	3-10	
35246864-0	2022	Glucose and oleic acid mediate cellular alterations in GLP-1-induced insulin-positive differentiating UCBMSCs.	Oleic Acid	12-22	insulin	Homo sapiens	69-76	
35246864-1	2022	Coordinated effects of glucose and oleic acid on glucagon-like peptide-1 (GLP-1) mediated differentiation of insulin-positive differentiating umbilical cord mesenchymal stromal cells (dUCBMSCs) was studied using a co-culture of NCI-H716 (GLP-1+) and UCBMSCs (insulin+).	Oleic Acid	35-45	insulin	Homo sapiens	109-116	
2677202-2	1989	The presence of oleate (complexed to 3% albumin at a molar ratio of 1.7:1) resulted in a 3.5-fold stimulation of apoB secretion that was apparent after only 3 h. Insulin halved the rate of apoB output and the inhibition was detectable within the physiological insulin range, but was not apparent until 12-16 h. Albumin in the culture medium had a dose-dependent inhibitory effect on apoB production.	Oleic Acid	16-22	insulin	Homo sapiens	162-169	
2677202-2	1989	The presence of oleate (complexed to 3% albumin at a molar ratio of 1.7:1) resulted in a 3.5-fold stimulation of apoB secretion that was apparent after only 3 h. Insulin halved the rate of apoB output and the inhibition was detectable within the physiological insulin range, but was not apparent until 12-16 h. Albumin in the culture medium had a dose-dependent inhibitory effect on apoB production.	Oleic Acid	16-22	insulin	Homo sapiens	260-267