Objective To investigate the relationship between the expressions of proliferating cell nuclear antigen (PCNA), p53 and Bcl-2 protein and clinical chemothreapy, prognosis in bone marrow cells in children with acute leukemia (AL). Methods Immunohistochemical SP method was used to detect the expressions of PCNA, p53 and Bcl-2 in specimens of bone marrow puncture of 59 children with AL and 15 healthy children as control. Results There was a significant difference in the expressions of PCNA, p53 and Bcl-2 proteins between the initially treated patients and healthy subjects, and between the remission patients and non remission ones. There was not a significnat difference in PCNA expression between the refractory patients and healthy subjects, and PCNA expression was related to the chemotherapeutic sensitivity. There was a significant difference in the 6-week remission rate between the patients with and without PCNA expression, but there was no significant difference in the over 3 years survival rate without illness. The expression levels of Bcl-2 and p53 were significantly higher in the refractory patients than those in healthy subjects. The patients with the high expression of p53 and Bcl-2 were resistant to chemotherapy, low in the remission rate and poor in prognosis. Conclusion The AL patients with PCNA expression were higher in remission rate, and PCNA expression was not associated with long-term prognosis. The AL patients with the expression of p53 and Bcl-2 were lower in remission rate, and their expression was associated with long-term prognosis. Both p53 and Bcl-2 protein may serve as a molecular marker to predict chemotherapeutic sensitivity and prognosis. PCNA, p53 and Bcl-2 may be involved in the pathogenesis of child AL by various ways. It is more valuable for predicting prognosis to simultaneously detect the expression of PCNA, p53 and Bcl-2 proteins.

Objective To discuss whether Omega-3 fish oil fat emulsion has the potential protective mechanism for 7-day-old rats with hypoxic-ischemic brain damage (HIBD).Methods One hundred and sixty-eight 7-day-old SD rats were randomly divided into 4 groups:group A (sham group),group B (Omega-3 fish oil fat emulsion group),group C (normal fat emulsion group),group D (model group),and there were 42 cases in each group.Neonatal HIBD was induced by the method of Rice.Rats were sacrificed at 1 d,3 d and 7 d after the surgery.Hippocampus was removed for Real-time PCR and Western blot test to detect Toll-like receptor 4 (TLR4) and nuclear factor-κB (NF-κB) mRNA and protein expression.TUNEL staining comparison was done among different groups to observe the number of cellular apoptosis.Results HE staining of hippocampus CA1 area in 3 d showed that brain tissues in group A maintained normal structures;those in group D had much more brain cells with severe edema than other groups;TLR4 and NF-κB mRNA and protein expression levels in group D were higher than those in group A in 1 d (all P ＜0.05);TLR4 and NF-κB expression levels of mRNA and protein in group B (4.89 ± 0.51,9.30 ± 1.53;1.15 ±0.10,1.44 ± 0.14) were lower than those in group C (17.58 ± 2.50,20.13 ± 1.00;2.56 ± 0.10,2.82 ± 0.09) and group D (15.94-± 2.52,26.21 ± 3.00;2.34 ± 0.11,4.51 ± 0.36) in 3 d (all P ＜ 0.05),and compared with group A (6.30 ± 1.52,5.32 ± 1.06;1.32 ± 0.10,2.42 ± 0.14),there was significant difference (all P ＞ 0.05);TLR4 and NF-κB mRNA and protein expression levels in group B were lower than those in group C and group D in 7 d(all P ＜0.05),and compared with group A there was no significant difference (all P ＞ 0.05).The apoptotic cell number of brain tissues in 3 d:group B (13.67 ±2.52) were lower than those in group C (27.67 ±2.52) and group D (41.00 ±3.61) (all P ＜0.05),and compared with the group A (6.00 ±2.00),the difference was not statistically significant (P ＞ 0.05).Conclusions Omega-3 fish oil fat emulsion plays an important role in protecting neonatal rats with HIBD.The mechanisms were likely to reduce TLR4,NF-κB and cell apoptosis levels.

Objective To investigate the expression of nuclear factor-kappa Bp65 (NF-κBp65)and Toll-like receptor 4(TLR4)protein in the brain tissues of 7-day-old Sprague-Dawley(SD) rats with cerebral hypoxia-ischemia encephalopathy (HIE) and to explore the role of TLR4 and NF-κBp65 in the pathogenesis of neonatal rats with hypoxic-ischemic brain damage.Methods Seven-day SD rats were randomly divided into the experimental group and the control group.Brain pathological changes were observed in light microscopy at 6 h、12 h、24 h、72 h、7 d after HIE.The expression of TLR4 and NF-κBp65 in brain tissues were analyzed by immunohistochemistry method.Results NF-κBp65 and TLR4 were expressed in the neuron and microglia of control group and experimental group.The expression were most significant at cerebral cortex and hippocamp.However,the expression of NF-κBp65and TLR4 began to increase at HIE 6h:NF-κBp65 (0.219 3 ± 0.024 7,0.215 7 ±0.030 4)and TLR4(0.327 1 ±0.033 3,0.303 9 ±0.037 9),and achieved the hightest at HIE 24h:NF-κBp65 (0.3564±0.0235,0.3365 ±0.023 2)and TLR4(0.434 2 ±0.0428,0.4193 ±0.041 3),then decreased at HIE 72 h:NF-κBp65 (0.289 2 ± 0.032 0,0.260 9 ± 0.021 2) and TLR4 (0.300 5 ± 0.020 9,0.282 0 ± 0.022 6),and HIE 7 d:NF-κBp65(0.247 9 ±0.0340,0.242 1 ±0.025 4) and TLR4(0.274 4 ±0.0288,0.257 1 ±0.027 5).Conclusion There is a positive correlation between NF-κBp65 and TLR4 in rats with HIE.It suggested that they may have the same pathophysiology development in HIE.

Objective To study the effects of discoidin domain receptor 1 (DDR1) mediated phosphorylation of protein Tau on hypoxic-ischemic brain damage (HIBD) in neonatal rats and its possible mechanism.Methods Sixty-four seven-day-old male specific-pathogen-free Wistar rats were randomly divided into four groups with sixteen in each: Sham, HIBD, HIBD with normal saline (HIBD+NS) and HIBD with DDR1 inhibitor (HIBD+DI) groups. A rat model of HIBD was established by subjecting the rats to left common carotid artery ligation, followed by exposing them to hypoxia for two hours. In HIBD+DI group, the inhibitor of DDR1 was immediately injected into lateral cerebroventricles of the rats following modeling. Forty-eight hours after injection, tissues of left cerebral cortex were collected from each rat to evaluate histopathological changes with HE staining. Western-blotting was used to assess the phosphorylation levels of DDR1 and protein Tau. Enzyme-linked immunosorbent assay was performed to detect the concentrations of acetylcholine. Analysis of variance ort test were used for statistical analysis.Results (1) Damages in cerebral cortex: Percentages of abnormal neurons in the rats of HIBD group were higher than those in Sham group [(80.28±4.51)% vs (10.40±2.17)%,t=39.491,P<0.01]. Pyknotic or necrotic neurons in the rats of HIBD+DI group were less than those in HIBD+NS group [(31.91±3.05)% vs (82.01±7.20)%,t=18.123,P<0.01]. (2) Phosphorylation of DDR1 and protein Tau: Levels of phosphorylated DDR1 in the cerebral cortexes of rats in HIBD group were higher than those in Sham group (0.922±0.199 vs 0.095±0.023,t=10.379,P<0.01), and those levels in HIBD+NS group were higher than those in HIBD+DI group (1.200±0.171 vs 0.255±0.111,t=11.901, P<0.01). The phosphorylation of protein Tau was similar to that of DDR1 (0.919±0.228 vs 0.194±0.224 in HIBD and Sham groups,t=7.347; 1.100±0.167 vs 0.291±0.210 in HIBD+NS and HIBD+DI groups,t=9.447;bothP<0.01). (3) Levels of acetylcholine: Levels of acetylcholine in cerebral cortexes of rats in HIBD group were lower than those in Sham group [(3.685±0.472) vs (7.429±0.861) ng/g protein,t=10.781,P<0.01], and that levels in HIBD+DI group were higher than those in HIBD+NS group [(7.058±0.915) vs (2.521±0.723) ng/g protein,t=10.989,P<0.01].Conclusions Activation of DDR1 plays a key role in enhancing the phosphorylation of protein Tau and in reducing the secretion of acetylcholine in cerebral cortexes of rats with HIBD. Inhibitor of DDR1 could protect neonatal rats from HIBD through the decreasing of protein Tau phosphorylation and increasing of acetylcholine release by inhibiting the activation of DDR1.

Objective To study the effect of high-glucose-high-fat diet on expression and methylation of insulin receptor ( INSR) gene in F1 offspring. Methods Sixty 5-week-old male SD rats were randomly divided into two groups:normal diet group and high-glucose-high-fat diet group. After rats were fed for three months, all male rats were performed to copulate with normal female rats. The body weight, blood glucose, and blood insulin of neonatal rats of F1 offspring were measured. The genome DNA, total RNA, and total protein were extracted from livers, brains, and muscles of neonatal rats. Relative expression of INSR in both mRNA level and protein level were detected using a realtime PCR test and a Western blot test respectively. Methylation of INSR promoter was analyzed by a methylation specific PCR ( MSP ) . Results Both body weight and fasting glucose were without significant difference in two groups. In high-glucose-high-fat diet group, both the glucose tolerance and insulin tolerance of neonatal rats in F1 offspring were significantly decreased. Except that in brains, the expressions of INSR gene in livers and in muscles of neonatal rats in high-glucose-high-fat diet group were down-regulated in mRNA ( realtime PCR ) and protein levels ( Western blot) compared to the normal diet group. Meanwhile, the methylation of INSR gene in livers and muscles were strengthened in high-glucose-high-fat diet group. Conclusion A high-glucose-high-fat diet fed to male SD rats leads to the decrease in glucose tolerance, insulin tolerance, and the inhibition of expression of hepatic and muscle INSR gene in neonatal offspring. The methylation of INSR gene could be involved in this phenomenon.

Objective To investigate the effects of miR?23a?3p on proliferation, migration and apoptosis on human acute myeloid leukemia ( AML) cells by targeting SMC1A. Methods Microarray analysis was used to screen differentially expressed microRNAs and mRNAs in human AML cells. Real?time fluorescence quantitative PCR (RT?qRCR) was used to detect the expressions of miR?23a?3p and SMCA in human AML cell line U937. TargetScan database was used to analyze the correlation between miR?23a?3p and SMC1A. Double luciferase reporter gene was used to detect the interaction between miR?23a?3p and SMC1A. The effect of miR?23a?3p expression on the proliferation of U937 cells was detected by clonal assay. The migration, apoptosis, cell cycle and caspase?3 activity of U937 cells regulated by miR?23a?3p were detected by cell scratch assay and flow cytometry, respectively. Western blot was used to detect the expressions of Bax and Bcl?2 in U937 cells. Results Compared with human normal monocyte SC group (1.00), the expression of miR?23a?3p in U937 cells was up?regulated (2.56±0.78) ( P＜0.01), while the expression of SMC1A was down?regulated (0.48±0.56, P＜0.01). miR?23a?3p specifically bond to SMC1A 3′UTR and regulated the expression activity of SMC1A. Overexpression of miR?23a?3p promoted the proliferation and migration of U937 cells and inhibited the apoptosis of U937 cells, while up?regulation of SMC1A inhibited the proliferation and migration of U937 cells and promoted the apoptosis of U937 cells. The percentages of G0／G1 phase, G2／M phase and S phase cells in the negative control group were ( 37.48 ± 0.21)%, (16.78±0.18)% and (45.74±0.15)% respectively, and those in the miR?23a?3p mimics group were (19.96±0.11)%, (41.69±0.24)% and (38.24±0.34)%, respectively. The difference was statistically significant (all P＜0.05). The proportions of G0／G1 phase, G2／M phase and S phase cells in the group of miR?23a?3p mimics+pcDNA3.1?SMC1A were (36.88± 0.21)%, ( 30.44± 0.33)% and ( 32.88± 0.16)%, respectively, without significant difference when compared with those of the miR?23a?3p mimics group ( P＞0.05). The relative expression levels of Bax and Bcl?2 protein in the negative control group were 0.55±0.45 and 0.31±0.54, respectively. Overexpression of miR?23a?3p inhibited the expression of Bax protein in U937 cells (0.23± 0.13, P＜0.001), promoted the expression of Bcl?2 protein ( 0.50 ± 0.23, P＜0.01), while SMC1A increased the expression of Bax protein in U937 cells (0.40± 0.11, P＜0.01), and inhibited the expression of Bcl?2 protein (0.37± 0.15). In the negative control group, caspase?3 activity was (25.82± 0.89)%.Overexpression of miR?23a?3p inhibited caspase?3 activity in U937 cells (3.64±0.56)%, P＜0.01, while up?regulation of SMC1A promoted caspase?3 activity in U937 cells ( 15.29 ± 0.85)%, P＜0.01. Conclusion miR?23a?3p can inhibit the proliferation and migration and promote apoptosis of human AML cells by targeting SMC1A.

Objective To investigate the effects of miR?23a?3p on proliferation, migration and apoptosis on human acute myeloid leukemia ( AML) cells by targeting SMC1A. Methods Microarray analysis was used to screen differentially expressed microRNAs and mRNAs in human AML cells. Real?time fluorescence quantitative PCR (RT?qRCR) was used to detect the expressions of miR?23a?3p and SMCA in human AML cell line U937. TargetScan database was used to analyze the correlation between miR?23a?3p and SMC1A. Double luciferase reporter gene was used to detect the interaction between miR?23a?3p and SMC1A. The effect of miR?23a?3p expression on the proliferation of U937 cells was detected by clonal assay. The migration, apoptosis, cell cycle and caspase?3 activity of U937 cells regulated by miR?23a?3p were detected by cell scratch assay and flow cytometry, respectively. Western blot was used to detect the expressions of Bax and Bcl?2 in U937 cells. Results Compared with human normal monocyte SC group (1.00), the expression of miR?23a?3p in U937 cells was up?regulated (2.56±0.78) ( P＜0.01), while the expression of SMC1A was down?regulated (0.48±0.56, P＜0.01). miR?23a?3p specifically bond to SMC1A 3′UTR and regulated the expression activity of SMC1A. Overexpression of miR?23a?3p promoted the proliferation and migration of U937 cells and inhibited the apoptosis of U937 cells, while up?regulation of SMC1A inhibited the proliferation and migration of U937 cells and promoted the apoptosis of U937 cells. The percentages of G0／G1 phase, G2／M phase and S phase cells in the negative control group were ( 37.48 ± 0.21)%, (16.78±0.18)% and (45.74±0.15)% respectively, and those in the miR?23a?3p mimics group were (19.96±0.11)%, (41.69±0.24)% and (38.24±0.34)%, respectively. The difference was statistically significant (all P＜0.05). The proportions of G0／G1 phase, G2／M phase and S phase cells in the group of miR?23a?3p mimics+pcDNA3.1?SMC1A were (36.88± 0.21)%, ( 30.44± 0.33)% and ( 32.88± 0.16)%, respectively, without significant difference when compared with those of the miR?23a?3p mimics group ( P＞0.05). The relative expression levels of Bax and Bcl?2 protein in the negative control group were 0.55±0.45 and 0.31±0.54, respectively. Overexpression of miR?23a?3p inhibited the expression of Bax protein in U937 cells (0.23± 0.13, P＜0.001), promoted the expression of Bcl?2 protein ( 0.50 ± 0.23, P＜0.01), while SMC1A increased the expression of Bax protein in U937 cells (0.40± 0.11, P＜0.01), and inhibited the expression of Bcl?2 protein (0.37± 0.15). In the negative control group, caspase?3 activity was (25.82± 0.89)%.Overexpression of miR?23a?3p inhibited caspase?3 activity in U937 cells (3.64±0.56)%, P＜0.01, while up?regulation of SMC1A promoted caspase?3 activity in U937 cells ( 15.29 ± 0.85)%, P＜0.01. Conclusion miR?23a?3p can inhibit the proliferation and migration and promote apoptosis of human AML cells by targeting SMC1A.

Gestational diabetes mellitus (GDM) is the most common metabolic disorder during pregnancy, which seriously affects the normal development of the fetus.Blood glucose control during pregnancy is associated not only with recent adverse outcomes such as preterm birth, macrosomia, hypoglycemia, neonatal respiratory distress syndrome, electrolyte disorders, heart malformations and intestinal disorders, but also with long-term results such as conti-nued impaired glucose tolerance, obesity, metabolic syndrome, mental illness and eye disease.Correct understanding of adverse effects of GDM on newborn infants in the short and long term and their related mechanisms as well as timely prevention and treatment measures can significantly improve the outcome of pregnancy.This paper will make a summary of these problems.

Objective To study the effect of perinatal hypothyroidism (PHT) on hippocampal neuronal structure and function of neonatal rats.Methods Sixteen pregnant SD rats were randomly divided into control group and PHT group (n=8).The pregnant rats were subjected to gavage by normal saline or 6-propyl-2-thiouracil (PTU) every day from 15 d of pregnant to the end of lactation.After parturition,38 male neonatal rats from each group were chosen for the following study.On the 7th d of birth,15 neonatal rats from each group were sacrificed,and the concentrations of free triiodothyronine (FT) 3,FT4 and thyroid stimulating hormone (TSH) in serum and acetylcholine (Ach) in the hippocampus were detected by ELISA.Real-time PCR,Western blotting and immunohistochemistry were used to assess the expressions of neuronal nuclei antigen (NeuN) and microtubule-associated protein tau (MAPT)in transcriptional and protein levels orderly.The left neonatal rats at one month old were performed morris water maze test to evaluate the learning and memory abilities.Results ELISA results showed that both FT3 and FT4 significantly decreased but TSH increased significantly in serum of PHT rats as compared with those in the control group (P＜0.05);Ach in the hippocampus of PHT rats was reduced three folds as compared with those in control group,with significant difference (P＜0.05).Real-time PCR and Western blotting results showed that the mRNA and protein expression levels of NeuN and MAPT in PHT rats were markedly down-regulated as compared with those in the control group:0.25 and 0.12 fold ofmRNA level in control group,and 0.35 and 0.22 fold of protein level in control group,with significant differences (P＜0.05).Immunohistochemistry indicated decreased NeuN and MAPT expression levels of varying degrees in PHT rats.In the morris water maze,one-month-old rats with PHT showed significantly prolonged escape latency ([10.18±3.02] s) and lengthened total distance ([365.28±41.77] cm) as compared with the control rats ([24.36±5.15] s,[790.36±72.53] cm,P＜0.05).Conclusion PHT could result in reduced expressions of neuron markers,axons dysfunction and decreased secretion of neurotransmitter in the hippocampus of neonatal rats,and it could weaken the learning and memory abilities in long term.

Objective:To analyze the role of perfusion index(PI)in assessing the severity of neonatal illnesses.Methods:A total of 502 newborns admitted to the Department of Neonatology within 24 hours of birth at Xinxiang Central Hospital from October 2018 to July 2019 were recruited.Neonatal critical illness score(NCIS)was graded within 24 hours of admission, and newborns were categorized into non-critical(NCIS>90 scores), critical(NCIS 70-90 scores)and extremely critical(NCIS<70 scores). PI was monitored in all newborns within 24 hours of birth in a resting state.A total of 502 PIs were recorded, including 341 cases of non-critical, 110 cases of critical and 51 cases of extremely critical.Results:The medium PI [ M( P25, P75)] of newborns in non-critical, critical and extremely critical groups were 1.80(1.40, 2.60), 0.96(0.74, 1.43)and 0.65(0.41, 1.10), respectively.PI values in extremely critical group was significantly lower than those in critical group and non-critical group( P<0.05). The medium PI [ M( P25, P75)] of full-term newborns, moderate/late preterm newborns and extremely/very preterm newborns were 1.70(1.20, 2.70), 1.60(1.10, 2.30) and 1.35(0.80, 2.30), respectively.PI in full-term newborns was significantly higher than those in moderate/late preterm newborns and extremely/very preterm newborns( P<0.05). PI was moderately positively correlated with NCIS in newborns( r=0.791, P<0.01). The area under the receiver operating characteristic curve of NCIS predicted by PI value was 0.846, and the prediction sensitivity and specificity were 85.0% and 70.8% when PI was 0.56. Conclusion:PI is correlated with NCIS in newborns, which is able to reflect the severity of neonatal illnesses.A low PI indicates severe conditions of neonatal illnesses.