Spermatozoa recovery and post-thawing quality of brown bear ejaculates is affected for centrifugation regimes

Sperm cryopreservation protocols for brown bear (Ursus arctos) require the centrifugation of semen samples to increase sperm concentration and to clean urine in contaminated samples. We evaluated the effect of centrifugation regimes (time and relative centrifugal force—RCF) on the quantity of sperm recovered and the quality of post-thawed sperm. Thirteen brown bears were electroejaculated. The ejaculates were diluted 1:1 in Tris–citric acid–glucose (TCG) extender and centrifuged with different RCF/time combinations: 600×g, 1,200×g and 2,400×g, for 3, 6 or 12 min. After centrifugation, spermatozoa were diluted in TES–Tris–fructose extender with egg yolk and glycerol (final glycerol concentration of 8%) and frozen in 0.25-mL straws. In the post-thawed semen, motility was assessed by CASA, and acrosomal status (PNA-FITC), viability (SYBR-14 with propidium iodide) and chromatin status (SCSA) were determined by flow cytometry. The longest centrifugation time (12 min) significantly decreased some motility parameters. Sperm recovery significantly decreased in brown bear at 600×g. Our results suggest that brown bear spermatozoa are more sensitive to long centrifugation times than to high RCF. Centrifugation regimes showed no effects on the post-thawing chromatin status. We recommend preparing the brown bear semen for freezing by centrifugation 1,200×g or 2,400×g for 6 min, after electroejaculation and dilution 1:1 in TCG extender, since these procedures increase the spermatozoa recovery without harmful effects on the post-thawed quality of brown bear spermatozoa.     

Acerogenin A, a natural compound isolated from Acer nikoense Maxim, stimulates osteoblast differentiation through bone morphogenetic protein action

We investigated the effects of acerogenin A, a natural compound isolated from Acer nikoense Maxim, on osteoblast differentiation by using osteoblastic cells. Acerogenin A stimulated the cell proliferation of MC3T3-E1 osteoblastic cells and RD-C6 osteoblastic cells (Runx2-deficient cell line). It also increased alkaline phosphatase activity in MC3T3-E1 and RD-C6 cells and calvarial osteoblastic cells isolated from the calvariae of newborn mice. Acerogenin A also increased the expression of mRNAs related to osteoblast differentiation, including Osteocalcin, Osterix and Runx2 in MC3T3-E1 cells and primary osteoblasts: it also stimulated Osteocalcin and Osterix mRNA expression in RD-C6 cells. The acerogenin A treatment for 3 days increased Bmp-2, Bmp-4, and Bmp-7 mRNA expression levels in MC3T3-E1 cells. Adding noggin, a BMP specific-antagonist, inhibited the acerogenin A-induced increase in the Osteocalcin, Osterix and Runx2 mRNA expression levels. These results indicated that acerogenin A stimulates osteoblast differentiation through BMP action, which is mediated by Runx2-dependent and Runx2-independent pathways.     

布鲁氏菌入侵相关基因IalB缺失株的构建及生物学特性分析

入侵相关基因(invasion-associated locus B, ialB)的同源基因在布鲁氏菌所属的根瘤菌目中是广泛保守的,但其在布鲁氏菌中的功能研究几乎为空白。根据有限的报道资料,猜测ialB的功能可能与布鲁氏菌入侵细胞以及适应胞内环境胁迫有关。【目的】探究ialB在布鲁氏菌中的生物学功能,揭示其在布鲁氏菌黏附和入侵细胞以及胞内存活中的作用。【方法】以猪种布鲁氏菌S2株为亲本,运用同源重组的方法构建布鲁氏菌ialB缺失株ΔialB,并通过表达质粒转化的方法构建其回补株CΔialB,比较3种菌株的生长特性、对体外应激的敏感性;通过扫描电镜观察ialB缺失对布鲁氏菌形态的影响,通过实时荧光定量PCR检测3种菌株极性延长相关基因的表达;通过免疫荧光和平板计数的方法分析ialB缺失对布鲁氏菌黏附、入侵RAW264.7细胞以及胞内存活的影响。【结果】成功构建了菌株ΔialB和CΔialB;ΔialB与布鲁氏菌S2株相比,生长受限,活力降低,在酸应激、高渗应激、低渗应激、多黏菌素B应激条件下存活率降低,在氧化应激条件下存活率上升;而且,ΔialB的菌体形态发生改变,菌体变短,直径增加,极...     

Differentiation of human fetal osteoblastic cells and gap junctional intercellular communication

Gap junctional channelsfacilitate intercellular communication and in doing so maycontribute to cellular differentiation. To test this hypothesis, weexamined gap junction expression and function in atemperature-sensitive human fetal osteoblastic cell line (hFOB 1.19)that when cultured at 37°C proliferates rapidly but when culturedat 39.5°C proliferates slowly and displays increased alkalinephosphatase activity and osteocalcin synthesis. We found that hFOB 1.19 cells express abundant connexin 43 (Cx43) protein and mRNA. Incontrast, Cx45 mRNA was expressed to a lesser degree, and Cx26 and Cx32mRNA were not detected. Culturing hFOB 1.19 cells at 39.5°C,relative to 37°C, inhibited proliferation, increased Cx43 mRNA andprotein expression, and increased gap junctional intercellularcommunication (GJIC). Blocking GJIC with 18-glycyrrhetinic acid prevented the increase in alkaline phosphataseactivity resulting from culture at 39.5°C but did not affectosteocalcin levels. These results suggest that gap junction functionand expression parallel osteoblastic differentiation and contribute tothe expression of alkaline phosphatase activity, a marker for fullydifferentiated osteoblastic cells.

     

Low salinity causes oxidative stress and modulates specific antioxidant gene expression in the toxic dinoflagellate Alexandrium pacificum

Salinity is an important factor in the physiological regulation of algae; however, its influence on the genomic responses in toxic dinoflagellates is insufficiently understood. In the present study, we evaluated the effect of salinity stress on the physiology, photosynthesis, and molecular responses of the toxic dinoflagellate Alexandrium pacificum (group IV). When exposed cells to different salinities of 20–40 psu, we detected the lowest cell density (3.25?×?10³ cells mL^?1) and highest cell size (30.6 µm) at 20 psu. Photosynthesis efficiency considerably decreased at 20 and 40 psu compared to the control (33 psu). Quantitative real-time polymerase chain reaction revealed that psbA, psbD, and atpC expression levels were significantly downregulated under conditions of salinity stress for 72 h. In contrast, the expression levels of antioxidant genes MnSOD and GPx were greatly upregulated at 20 psu (13.2- and 15.2-fold changes at 6 h; 8.8- and 8.3-fold changes at 24 h, respectively). The expression levels of other antioxidant genes, CuZnSOD, GST, and APx, increased steadily over time under salinity stress. Such conditions increased the relative levels of reactive oxygen species by 2.2-fold in 6 h and 2.4-fold in 24 h at 20 psu. These results suggest that low salinity may cause cellular oxidative stress, leading to a decrease in photosynthesis and affecting specific antioxidant systems in toxic dinoflagellates.

     

Vesicular Monoamine Transporters (VMATs) in Adrenal Chromaffin Cells: Stress-Triggered Induction of VMAT2 and Expression in Epinephrine Synthesizing Cells

Vesicular monoamine transporters (VMATs) mediate transmitter uptake into neurosecretory vesicles. There are two VMAT isoforms, VMAT1 and VMAT2, encoded by separate genes and displaying different cellular distributions and pharmacological properties. We examined the effect of immobilization stress (IMO) on expression of VMATs in the rat adrenal medulla. Under basal conditions, VMAT1 is widely expressed in all adrenal chromaffin cells, while VMAT2 is co-localized with tyrosine hydroxylase (TH) but not phenylethanolamine N-methyltransferase (PNMT), indicating its expression in norepinephrine (NE)-, but not epinephrine (Epi)-synthesizing chromaffin cells. After exposure to IMO, there was no change in levels of VMAT1 mRNA. However, VMAT2 mRNA was elevated after exposure of rats to 2 h IMO once (1× IMO) or daily for 6 days (6× IMO). The changes in VMAT2 mRNA were reflected by increased VMAT2 protein after the repeated IMO. Immunofluorescence revealed an increased number of cells expressing VMAT2 following repeated IMO and its colocalization with PNMT in many chromaffin cells. The findings suggest an adaptive mechanism in chromaffin cells whereby enhanced catecholamine storage capacity facilitates more efficient utilization of the well-characterized heightened catecholamine biosynthesis with repeated IMO stress.     

miR-483 inhibits bovine myoblast cell proliferation and differentiation via IGF1/PI3K/AKT signal pathway

MicroRNAs (miRNAs) have been established to regulate skeletal muscle development in mammals. However, few studies have been conducted on the regulation of proliferation and differentiation of bovine myoblast cells by miRNAs. The aim of our study was to explore the function of miR-483 in cell proliferation and differentiation of bovine myoblast. Here, we found that miR-483 declined in both proliferation and differentiation stages of bovine myoblast cells. During the proliferation phase, the overexpression of miR-483 downregulated the cell cycle–associated genes cyclin-dependent kinase 2 (CDK2), proliferating cell nuclear antigen (PCNA) messenger RNA (mRNA), and the protein levels. At the cellular level, cell cycle, cell counting kit-8, and 5-ethynyl-2´-deoxyuridine results indicated that the overexpression of miR-483 block cell proliferation. During differentiation, the overexpression of miR-483 led to a decrease in the levels of the myogenic marker genes MyoD1 and MyoG mRNA and protein. Furthermore, the immunofluorescence analysis results showed that the number of MyHC-positive myotubes was reduced. In contrast, the opposite experimental results were obtained concerning both proliferation and differentiation after the inhibition of miR-483. Mechanistically, we demonstrated that miR-483 target insulin-like growth factor 1 (IGF1) and downregulated the expression of key proteins in the PI3K/AKT signaling pathway. Altogether, our findings indicate that miR-483 acts as a negative regulator of bovine myoblast cell proliferation and differentiation.     

Effects of Ulmus davidiana planch on mineralization, bone morphogenetic protein-2, alkaline phosphatase, type I collagen, and collagenase-1 in bone cells

Summary Ulmus davidiana Planch (Ulmaceae) (UD) long has been known to have anti-inflammatory and protective effects on damaged tissue, inflammation, and bone among other functions. The herbal medicine also is being used in Oriental medicine to treat osteoporosis. In a preliminary study, treatment of osteoclasts containing long bone cells with the water extract of UD bark prevented the intracellular maturation of cathepsin K (cat K), and thus, it was considered that UD is a pro-drug of a potent bone-resorption inhibitor. To further clarify the role of UD in ossification, we investigated the effects of UD on the proliferation and differentiation of osteoblastic cell lines in vitro. In this study, we assessed the effects of UD on osteoblastic differentiation in nontransformed osteoblastic cells (MC3T3-E1) and rat bone marrow cells. UD enhanced alkaline phosphatase (ALP) activity and mineralization in a dose- and time-dependent fashion. This stimulatory effect of the UD was observed at relatively low doses (significant at 5–50 μg/ml and maximal at 50 μg/ml). Northern blot analysis showed that UD (100 μg/ml) increases in bone morphogenic protein-2 as well as ALP mRNA concentrations in MC3T3-E1 cells. UD slightly increased in type I collagen mRNA abundance throughout the culture period, whereas it markedly inhibited the gene expression of collagenase-1 between days 15 and 20 of culture. These results indicate that UD has anabolic effects on bone through the promotion of osteoblastic differentiation, suggesting that is could be used for the treatment of common metabolic bone diseases such as osteoporosis.     

Growth-associated biosynthesis of astaxanthin in heterotrophic Chlorella zofingiensis (Chlorophyta)

The green microalga Chlorella zofingiensis can produce the ketocarotenoid astaxanthin under heterotrophic culture conditions. Here we report the growth-associated biosynthesis of astaxanthin in this biotechnologically important alga. With glucose as sole carbon and energy source, C. zofinginesis grew fast in the dark with rapid exhaustion of nitrogen and carbon sources from media, leading to a high specific growth rate (0.034 h⁻¹). Cultures started at a cell concentration of about 3.4 × 10⁹ cells l⁻¹ reached, after 6 days, standing biomass values of 1.6 × 10¹¹ cells or 8.5 g dry weight l⁻¹. Surprisingly, the biosynthesis of astaxanthin was found to start at early exponential phase, independent of cessation of cell division. A general trend was observed that the culture conditions benefiting cell growth also benefited astaxanthin accumulation, indicating that astaxanthin was a growth-associated product in this alga. The maximum cell dry biomass and astaxanthin yield were 11.75 g l⁻¹ and 11.14 mg l⁻¹ (about 1 mg g⁻¹), simultaneously obtained in the fed-batch culture with a combined glucose–nitrate mixture addition, which were the highest ever reported in dark-heterotrophic algal cultures. The possible reasons why dark-heterotrophic C. zofingiensis could produce astaxanthin during the course of cell growth were discussed.     

Parent and offspring genotypes influence gene expression in early life

Parents can have profound effects on offspring fitness. Little, however, is known about the mechanisms through which parental genetic variation influences offspring physiology in natural systems. White‐throated sparrows (Zonotrichia albicollis, WTSP) exist in two genetic morphs, tan and white, controlled by a large polymorphic supergene. Morphs mate disassortatively, resulting in two pair types: tan male × white female (T × W) pairs, which provide biparental care and white male × tan female (W × T) pairs, which provide female‐biased care. To investigate how parental composition impacts offspring, we performed RNA‐seq on whole blood of WTSP nestlings sampled from nests of both pair types. Parental pair type had a large effect on nestling gene expression, with 881 genes differentially expressed (DE) and seven correlated gene coexpression modules. The DE genes and modules expressed at higher levels in W × T nests with female‐biased parental care function in metabolism and stress‐related pathways resulting from the overrepresentation of proteolysis and stress‐response genes (e.g., SOD2, NR3C1). These results show that parental genotypes and/or associated behaviours influence nestling physiology, and highlight avenues of further research investigating the ultimate implications for the maintenance of this polymorphism. Nestlings also exhibited morph‐specific gene expression, with 92 differentially expressed genes, comprising immunity genes and genes encompassed by the supergene. Remarkably, we identified the same regulatory hub genes in these blood‐derived expression networks as were previously identified in adult WTSP brains (EPM2A, BPNT1, TAF5L). These hub genes were located within the supergene, highlighting the importance of this gene complex in structuring regulatory networks across diverse tissues.     

Aquaporin expression in response to different water stress intensities and recovery in Richter-110 (<Emphasis Type="Italic">Vitis</Emphasis> sp.): relationship with ecophysiological status

Aquaporins seem essential for the regulation of plant water status and expenses. Richter-110 is a Vitis hybrid (Vitis berlandieri × rupestris) reputed to be strongly drought-tolerant. Three irrigation treatments were established in Richter-110 plants growing outdoors defined by the resulting maximum stomatal conductance (g _s), and ensuring water stress situations not severe enough as to stop photosynthesis and growth: well-watered plants (g _s about 250 mmol H₂O m⁻² s⁻¹), moderate water stress (g _s about 150 mmol H₂O m⁻² s⁻¹) and severe water stress (g _s about 50 mmol H₂O m⁻² s⁻¹). Plants under water stress were kept at constant water availability for 7 days to check for possible acclimation. Finally, plants were re-watered, and allowed to recover, for 3 days. Stomatal conductance, leaf water potential, xylem abscisic acid (ABA) content and root and stem hydraulic conductivity were determined. The relative amounts of expression of mRNA encoding seven putative aquaporins were determined in roots and leaves by RT-PCR. The decrease in stomatal conductance with moderate and severe water stress was associated with increasing ABA contents, but not with the leaf water potential and hydraulic conductivities, which remained unchanged during the entire experiment. Aquaporin gene expression varied depending on which aquaporin, water stress level and the plant organ. We suggest that aquaporin expression was responsive to water stress as part of the homeostasis, which resulted in constant leaf water potential and hydraulic conductivity.     

Genome-wide mRNA profiling in glucose starved <Emphasis Type="Italic">Bacillus subtilis</Emphasis> cells

In this study global changes in gene expression were monitored in Bacillus subtilis cells entering stationary growth phase owing to starvation for glucose. Gene expression was analysed in growing and starving cells at different time points by full-genome mRNA profiling using DNA macroarrays. During the transition to stationary phase we observed extensive reprogramming of gene expression, with ~1000 genes being strongly repressed and ~900 strongly up-regulated in a time-dependent manner. The genes involved in the response to glucose starvation can be assigned to two main classes: (i) general stress/starvation genes which respond to various stress or starvation stimuli, and (ii) genes that respond specifically to starvation for glucose. The first class includes members of the ^B-dependent general stress regulon, as well as 90 vegetative genes, which are strongly down regulated in the course of the stringent response. Among the genes in the second class, we observed a decrease in the expression of genes encoding proteins required for glucose uptake, glycolysis and the tricarboxylic acid cycle. Conversely, many carbohydrate utilisation systems that depend on phosphotransferase systems (PTS) or ABC transporters were activated. The expression of genes required for utilisation or generation of acetate indicates that acetate constitutes an important energy source for B. subtilis during periods of glucose starvation. Finally, genome wide mRNA profiling data can be used to predict new metabolic pathways in B. subtilis. Thus, our data suggest that glucose-starved cells are able to degrade branched-chain fatty acids to pyruvate and succinate via propionyl-CoA using the methylcitrate pathway. This pathway appears to link lipid degradation to gluconeogenesis in glucose-starved cells.This revised version was published online in May 2005 with corrections to the list of authors