[Effects of Aeration Methods on Microbial Diversity and Community Structure in Rice Rhizosphere]

To explore the effects of different aeration methods on the abundance of microorganisms and microorganism community structure in rice rhizosphere soil, two rice varieties, Miyang 46(MY) and Zhenshan 97B(ZS), were used with three aeration treatments:alternate wetting and drying(AWD), continuous flooding and aeration(CFA), and continuous flooding(CF). The diversity of bacterial and fungal communities in rice rhizosphere soil was analyzed using Illumina MiSeq high-throughput sequencing. Soil physical and chemical factors were also analyzed. The results showed that the dominant bacterial communities in rice rhizosphere soil were Chloroflexi, Actinobaciota, Acidobacteria, Proteobacteria, and Firmicutes, and the dominant fungal communities were Ascomycota and Basidiomycota in rice rhizosphere soil. At each growth stage, the relative abundance of Chloroflexi and Acidobacteria was higher in the AWD treatment than in the other treatments, and the relative abundance of Actinobaciota was higher in the CFA treatment than in the other treatments. The relative abundance of Firmicutes was lower in the AWD treatment than in the other treatments. Aeration methods affected the diversity and richness of rhizosphere microbial species. For example, the diversity of bacterial species was higher, and the richness of bacterial species was lower in the AWD treatment than that in the other treatments. The diversity and richness of fungal species were higher in the AWD and CFA treatments than those in the CF treatment. The physical and chemical properties of rhizosphere soil were also affected by aeration method. The soil redox potential(Eh) was the highest in AWD, followed by that in CFA and CF, and significant differences were observed among treatments. The NO3--N content was significantly higher, and the NH4+-N content was significantly lower in the AWD and CFA treatments than in the CF treatment in rhizosphere soil at all growth stages. Correlation analysis showed that the pH and Eh of rhizosphere soil were positively correlated with the diversity of bacterial species, negatively correlated with the richness of bacterial species, and positively correlated with the diversity and richness of fungal species. Redundancy analysis indicated that the relative abundance of Chloroflexi was positively correlated with the pH and NH4+-N content at each period, positively correlated with the Eh and NO3--N content at the tillering and heading stages, and negatively correlated with Eh and NO3--N content at the maturity stage. At each growth stage, the pH and Eh were positively correlated with the relative abundance of Acidobacteria, Proteobacteria, and Basidiomycota and negatively correlated with the relative abundance of Firmicutes and Ascomycota. During the entire growth period, the relative abundance of Ascomycota was negatively correlated with the NO3--N content and positively correlated with the NH4+-N content, and the opposite patterns were observed for the relative abundance of Basidiomycota. In summary, rhizosphere oxygenation enhanced the soil oxygen environment, altered soil physical and chemical properties, and affected microbial community diversity and richness to optimize microbial community structure.

Meta-analysis: the effect and adverse events of Lactobacilli versus placebo in maintenance therapy for Crohn disease

BACKGROUND

Lactobacilli are used in an attempt to maintain remission for Crohn disease. The aim of this study was to evaluate the efficacy and adverse events of Lactobacilli compared with placebo in maintenance therapy for Crohn disease.

METHODS

We searched MEDLINE, EMBASE, the Cochrane Controlled Trials Register, OVID and BIOSIS. All randomized trials comparing Lactobacilli with placebo in maintenance therapy for Crohn disease were included.

RESULTS

Six randomized controlled trials with a total of 359 participants met the inclusion criteria. From the meta-analyses, the relative risk (RR) of clinical relapse rate was 1.15 (95% confidence interval (CI) 0.90-1.48) comparing Lactobacilli with placebo and RR of endoscopic relapse rate was 1.31 (95%CI 0.57-3.00). Subgroup analyses showed RR for clinical relapse rates of Lactobacilli versus placebo was 0.99 (95%CI 0.76-1.29) in adults, 1.85 (95%CI 1.00-3.41) in children, 1.68 (95%CI 1.07-2.64) in Lactobacillus rhamnosus strain GG and 0.91 (95%CI 0.68-1.23) in Lactobacillus johnsonii respectively. The pooled RR of adverse events was 0.83 (95%CI 0.61-1.12).

CONCLUSION

Our meta-analysis suggests that compared with placebo, administration of L. rhamnosus strain GG as maintenance therapy may increase the relapse rates of Crohn disease. L. johnsonii is inefficacious in reducing the incidence of relapse.

Exercise decreases cytosolic aconitase activity in the liver, spleen, and bone marrow in rats

Effects of strenuous exercise on cytosolic aconitase activity (CAA) were investigated in this study. Female Sprague-Dawley rats were randomly assigned to four groups: S1 (Sedentary), S2 (Sedentary + L-NAME [N-nitro-l-arginine methyl ester]), E1 (Exercise), and E2 (Exercise + L-NAME). Rats in the E1 and E2 groups swam for 2 h/day for 3 months. L-NAME (an inhibitor of NOS) in drinking water (1 mg/ml) was administered to rats in the S2 and E2 groups for the same period. At the end of the third month, the CAA in the liver, spleen, and bone marrow cells was measured. In the exercise group (E1), CAA in the liver, spleen, and bone marrow cells was 19.99 +/- 1.49, 1.61 +/- 0.13, and 0.59 +/- 0.09 mU/mg protein, respectively. These values were significantly lower than the corresponding sedentary values in the S1 group (33.96 +/- 1.38, 3.96 +/- 0.19, and 3.20 +/- 0.18 mU/mg protein) (P < 0.01, 0.001, and 0.001, respectively). The treatment of L-NAME led to a significant increase in tissue CAA in the sedentary rats (S2). Also, the significantly higher CAA in the liver, spleen, and bone marrow cells was found in the exercised rats treated with L-NAME (E2) (29.50 +/- 1.27, 2.89 +/- 0.25, and 1.34 +/- 0.20 mU/mg) than without L-NAME (E1) (P < 0.01, 0.01, 0.05, respectively). However, the values in the E2 group were still significantly lower than those in the S1 group (P < 0.05, 0.01, and 0.001, respectively). This indicates that L-NAME treatment can partly recover the decreased CA in tissues in the exercised rats. These results provide evidence for the existence of the increased activity of IRP1 (iron regulatory protein 1) that is probably induced by the increased nitric oxide production in the strenuously exercised rats.

Increased nitric oxide is one of the causes of changes of iron metabolism in strenuously exercised rats

This study was carried out to investigate the possible role of increased nitric oxide (NO) production in the development of the low iron status in strenuously exercised rats. Female Sprague-Dawley rats were randomly assigned to four groups: sedentary (S1), sedentary + nitro-L-arginine methyl ester (L-NAME; S2), exercise (E1), and exercise + L-NAME (E2). Animals in the E1 and E2 groups swam for 2 h/day for 3 mo. L-NAME in the drinking water (1 mg/ml) was administrated to rats in the S2 and E2 groups for the same period. At the end of third month, hematological indexes and nitrite and nitrate (NOx) contents in the plasma and non-heme iron and NOx levels in the liver, spleen, and bone marrow cells were measured. Three months of exercise induced a significant increase in NOx content and a decrease in iron level both in plasma and tissues. Treatment with L-NAME, an inhibitor of NO synthase (NOS), led to a significant decrease in NOx and an increase in iron level both in plasma and tissues in the exercised rats. The E2 group had a significantly lower NOx content as well as a higher iron level both in plasma and tissues than the E1 group. However, the iron contents in the plasma and tissues of the E2 group were still significantly lower than those found in S1. No difference was found in NOx levels between E2 and S1. These findings showed that exercise was associated with elevation in NOx and reduction in iron in plasma and the tissues. Treatment with L-NAME was able to completely inhibit the effect of exercise on NOx as well as partly recover the decreased iron contents in plasma and tissues resulting from exercise. This suggests that the increased production of NO might be one of the causes of the lower iron status in exercised rats.

Plasma nitric oxide and iron concentrations in exercised rats are negatively correlated

The aim of this study was to investigate the effect of strenuous exercise on plasma nitric oxide and iron (PI) concentrations in rats. The rats were divided into six groups: 3, 6 and 12 months of the exercise (swimming) groups and their corresponding controls. At the end of experimental periods, blood samples were collected to measure plasma NOx (nitrate and nitrite) and iron concentrations and other hematological indices. The correlative analysis of plasma NOx with PI in the exercised and the control rats was performed. The results showed that plasma NOx concentration was significantly greater and PI lower in the 3, 6, and 12 months of the exercise groups compared to their sedentary controls (p < 0.01). However, the duration of strenuous exercise had no significant effect on plasma NOx or PI contents. A negative correlation between plasma NOx and PI levels was found in all three exercise groups (r = -0.750, -0.578, and -0.808 and p < 0.01, 0.05, 0.01 respectively), but not in the sedentary control groups. These results imply that strenuous exercise may lead to an increase in plasma NOx concentration as well as a low iron level. They also suggest the possibility that the increased NO production might be associated with the development of the lower iron status in exercise.

[Changes in the iron uptake of bone marrow cells in exercised rats]

The changes in transferrin(Tf)-bound and non-Tf-bound iron uptake were observed in bone marrow cells from rats with exercise-induced low iron status. Female rats were randomly divided into an exercise group (EG) and a sedentary group (SG). At the end of a 6-month period, the bone marrow cells were freshly isolated. The Tf receptor number on the surface of erythroblasts was 890150+/-164849 molecules/cell in SG and 2175360+/-462737 molecules/cell in EG (P<0.05). No significant difference in dissociation constant value was found between the two groups. The plateau of Tf internalization and the rates of cellular iron accumulation in EG were significantly higher than controls. Amounts of Tf-bound iron and Fe(II) uptake into cytosolic or stromal fractions were significantly higher in EG than those in cytosolic or stromal fractions of SG. With respect to the specific process of Fe(II), the michaelis constant value of iron uptake into the cytosol, rather than the stroma, in EG was significantly lower than that in SG; and the maximum rate of iron uptake into the stroma in EG was significantly higher than that in SG. The results show that exercise can increase Tf receptor-mediated and carrier-mediated iron uptake in bone marrow cells. The increased Tf-bound and Tf-free iron uptake may be helpful for heme synthesis.

Increased expression of transferrin receptor on membrane of erythroblasts in strenuously exercised rats

This study investigated the effects of strenuous exercise on transferrin (Tf)-receptor (TfR) expression and Tf-bound iron (Tf-Fe) uptake in erythroblasts of rat bone marrow. Female Sprague-Dawley rats were randomly assigned to either an exercise or sedentary group. Animals in the exercise group swam 2 h/day for 3 mo in a glass swimming basin. Both groups received the same amount of handling. At the end of 3 mo, the bone marrow erythroblasts were freshly isolated for Tf-binding assay and determination of Tf-Fe uptake in vitro. Tissue nonheme iron and hematological iron indexes were measured. The number of Tf-binding sites found in erythroblasts was approximately 674,500 +/- 132,766 and 1,270,011 +/- 235,321 molecules/cell in control and exercised rats, respectively (P < 0. 05). Total Fe and Tf uptake by the cells was also significantly increased in the exercised rats after 30 min of incubation. Rates of cellular Fe accumulation were 5.68 and 2.58 fmol. 10(6) cells(-1). min(-1) in the exercised and control rats, respectively (P < 0.05). Tf recycling time and TfR affinity were not different in exercised and control rats. Increased cellular Fe was mainly located in the stromal fraction, suggesting that most of accumulated Fe was transported to the mitochondria for heme synthesis. The findings demonstrated that the increased cellular Fe uptake in exercised rats was a consequence of the increased TfR expression rather than the changes in TfR affinity and Tf recycling time. The increase in TfR expression and cellular Fe accumulation, as well as the decreased serum Fe concentration and nonheme Fe in the liver and the spleen induced by exercise, probably represented the early signs of Fe deficiency.

Central ANG II receptor involved in carotid sinus reflex resetting in chronically stressed rats

The performance of carotid sinus baroreceptor reflex (CSR) was characterized in chronically stressed rats by changing intracarotid sinus pressure (ISP) and constructing ISP-MAP (mean arterial pressure) relationship curve. The role of central angiotensin II (ANG II) receptors in the changes of CSR performance induced by chronic stress was determined. Rats were subjected to foot-shock stress for two weeks. The carotid sinus was isolated from the systemic circulation and the ISP changed in a stepwise manner. The results showed that in chronically stressed rats, ISP-MAP relationship curve shifted upward, the set point was significantly higher than that obtained from the unstressed group, and the reflex gain and the MAP range were significantly smaller than those in unstressed rats. After intracerebroventricular injection of saralasin (20 ng), MAP range was augmented and the set point decreased significantly. Injection of vehicle did not lead any significant differences between the parameters of the reflex measured before or after injection in either the stressed or the unstressed rats. Furthermore, administration of ANG II (10 microg) induced a significant increase in the set point and decrease in the reflex gain in the unstressed rats. The responses of CSR to ANG II were completely blocked by pretreatment of saralasin. These findings suggest that chronic stress could induce the decreased CSR function in the normotensives and central ANG II receptors involved in the resetting of CSR in the chronically stressed rats.

Inhibitory mechanism of lead on transferrin-bound iron uptake by rabbit reticulocytes: a fractal analysis

Experimental data of transferrin and transferrin-bound iron uptake by rabbit reticulocytes in the presence or absence of extracellular lead is analyzed by means of a fractal model. A highly significant correlation of fractal dimension (Df) of intracellular transferrin or transferrin-bound iron uptake with varying extracellular concentrations of lead (0 approximately 25 umol/L) was observed (Transferrin: r = 0.897, p = 0.015; transferrin-bound iron: r = 0.947, p = 0.004). The Df of membrane-bound transferrin (r = -0.618, p = 0.191) or transferrin-bound iron (r = 0.144, p = 0.786) did not appear to be markedly altered by lead. Further analysis shows that inhibitory degree of lead on intracellular iron uptake is higher than that on intracellular transferrin uptake. These results suggest that the inhibitory effect of lead on the iron uptake may occur in intracellular process rather than in membrane binding step, probably inhibiting translocation of iron across the endosomal membrane.