PMID-sentid	Pub_year	Sent_text		comp_official_name	comp_offsetprotein_name	organism	prot_offset
35453393-7	2022	Excessive iron intake leads to increased OS, inflammation, and an increased ratio of IL-12/IL-10 cytokines to the M1 macrophage phenotype.	Iron	10-14	interleukin 10	Rattus norvegicus	91-96	
29382887-5	2018	The FE group decreased the retroperitoneal adipose tissue relative weight and SOD activity, but increased adiponectin, LPS, IL-10 and IL-6 content and IL-10/TNF-alpha ratio in retroperitoneal, IL-10 and TNF-alpha content in gonadal, and IL-6 content in mesenteric adipose tissues.	Iron	4-6	interleukin 10	Rattus norvegicus	124-129	
30584425-6	2018	On the other hand, iron overload increased IL6 and reduced IL10 in small intestinal tissues reflecting inflammatory condition and increased caspase 3 reactivity indicating apoptosis and increased iNOs expressing cell indicting oxidative stress especially in ileum.	Iron	19-23	interleukin 10	Rattus norvegicus	59-63	
29382887-5	2018	The FE group decreased the retroperitoneal adipose tissue relative weight and SOD activity, but increased adiponectin, LPS, IL-10 and IL-6 content and IL-10/TNF-alpha ratio in retroperitoneal, IL-10 and TNF-alpha content in gonadal, and IL-6 content in mesenteric adipose tissues.	Iron	4-6	interleukin 10	Rattus norvegicus	151-156	
29382887-5	2018	The FE group decreased the retroperitoneal adipose tissue relative weight and SOD activity, but increased adiponectin, LPS, IL-10 and IL-6 content and IL-10/TNF-alpha ratio in retroperitoneal, IL-10 and TNF-alpha content in gonadal, and IL-6 content in mesenteric adipose tissues.	Iron	4-6	interleukin 10	Rattus norvegicus	151-156	
22278021-6	2012	IL-10-mediated protection and subsequent renal repair were dependent on the presence of iron and lipocalin-2, since the administration of a neutralizing antibody for lipocalin-2 or administration of IL-10 macrophages pretreated with the iron chelating agent deferoxamine abrogated IL-10-mediated protective effects.	Iron	88-92	interleukin 10	Rattus norvegicus	0-5	
25822525-4	2015	Cardiac iron overload resulted in increased oxidative stress and gene expression of the inflammatory mediators tumor necrosis factor-alpha, interleukin-10 and interferon gamma, as well as matrix metalloproteinases-2 and -9.	Iron	8-12	interleukin 10	Rattus norvegicus	140-154	
22278021-6	2012	IL-10-mediated protection and subsequent renal repair were dependent on the presence of iron and lipocalin-2, since the administration of a neutralizing antibody for lipocalin-2 or administration of IL-10 macrophages pretreated with the iron chelating agent deferoxamine abrogated IL-10-mediated protective effects.	Iron	237-241	interleukin 10	Rattus norvegicus	199-204	
22278021-6	2012	IL-10-mediated protection and subsequent renal repair were dependent on the presence of iron and lipocalin-2, since the administration of a neutralizing antibody for lipocalin-2 or administration of IL-10 macrophages pretreated with the iron chelating agent deferoxamine abrogated IL-10-mediated protective effects.	Iron	237-241	interleukin 10	Rattus norvegicus	199-204	
22278021-6	2012	IL-10-mediated protection and subsequent renal repair were dependent on the presence of iron and lipocalin-2, since the administration of a neutralizing antibody for lipocalin-2 or administration of IL-10 macrophages pretreated with the iron chelating agent deferoxamine abrogated IL-10-mediated protective effects.	Iron	88-92	interleukin 10	Rattus norvegicus	199-204	
22278021-6	2012	IL-10-mediated protection and subsequent renal repair were dependent on the presence of iron and lipocalin-2, since the administration of a neutralizing antibody for lipocalin-2 or administration of IL-10 macrophages pretreated with the iron chelating agent deferoxamine abrogated IL-10-mediated protective effects.	Iron	88-92	interleukin 10	Rattus norvegicus	199-204	
22278021-6	2012	IL-10-mediated protection and subsequent renal repair were dependent on the presence of iron and lipocalin-2, since the administration of a neutralizing antibody for lipocalin-2 or administration of IL-10 macrophages pretreated with the iron chelating agent deferoxamine abrogated IL-10-mediated protective effects.	Iron	237-241	interleukin 10	Rattus norvegicus	0-5	
22543903-4	2012	demonstrate that macrophages made to overexpress anti-inflammatory interleukin-10 protect rats with AKI through iron-mediated upregulation of lipocalin-2 and its receptors, eliciting both anti-inflammatory and proliferative responses.	Iron	112-116	interleukin 10	Rattus norvegicus	67-81