Objective: To explore the effect of combined oral exposure of titanium dioxide nanoparticles(TiO_2 NPs) and glucose on blood glucose homeostasis in young SD rats.
Methods: Eighty 4-week-old young SD rats were randomly divided into 8 groups(10 rats in each group, half male and half female). The rats were exposed to TiO_2 NPs through intragastric administration at 0, 2, 10 and 50 mg/kg with or without 1. 8 g/kg glucose daily for 30 days. Blood glucose was monitored weekly during the experiment. Oral glucose tolerance test(OGTT) was carried out after subacute exposure(30 days), and the biomarkers related to blood glucose homeostasis were detected, including the contents of glycosylated serum protein(GSP), glycosylated hemoglobin(HbA1 c), insulin, C-peptide and glucagon. At the same time, the pancreatic pathology of rats was observed.
Results: TiO_2 NPs were anatase crystals, closely spherical shape, with an average particle size of(24±5)nm. Exposure of TiO_2 NPs alone had little effect on blood glucose homeostasis. Blood glucose decreased on the 16 th exposure day at dose of 10 mg/kg TiO_2 NPs, and postprandial blood glucose(2 h) decreased after 30 days of TiO_2 NPs exposure at doses of 2 and 50 mg/kg in male rats(P<0. 05). The combined effect of oral exposure of TiO_2 NPs and glucose on blood glucose homeostasis was more obvious than that of TiO_2 NPs alone. Blood glucose decreased on the 9 th exposure day at dose of 10 mg/kg TiO_2 NPs+glucose in female rats, and postprandial blood glucose(2 h) decreased at dose of 2 and 50 mg/kg TiO_2 NPs+glucose after 30 days of exposure in male rats(P<0. 05). Blood glucose decreased on the 9 th day after 10 mg/kg TiO_2 NPs+glucose exposure in female rats. The glycosylated serum protein decreased and postprandial blood glucose(30 and 60 min) as well as the area under curve of OGTT increased in male rats after 30 days of exposure(P<0. 05). The changes of blood glucose-regulating hormones were only found after the combined exposure of 10 mg/kg TiO_2 NPs+glucose for 30 days, including the decrease of insulin in female rats, as well as the decrease of insulin and the increase of glucagon in male rats(P<0. 05). The interaction analysis showed that TiO_2 NPs and glucose had significant synergistic effect on postprandial blood glucose(60 min) in male rats(P<0. 05). No abnormality was found in the pathological observation of pancreas in rats of experimental groups.
Conclusion: Subacute combined oral exposure of TiO_2 NPs and glucose could affect the blood glucose homeostasis of young SD rats, resultsing in temporary hypoglycemia and impaired glucose tolerance, as well as adaptive changes of blood glucose-regulating hormones. The male rats were more sensitive. Compared with the exposure of TiO_2 NPs alone, the combined exposure of TiO_2 NPs and glucose induced more significant effects. Significant synergistic effect between them occurred on postprandial blood glucose.
Keywords: blood glucose homeostasis; combined exposure; synergistic effect; titanium dioxide nanoparticles; young rats.