纯氧或空气环境复苏对新生大鼠缺氧性大脑皮质神经元超微结构的影响

目的应用缺氧动物模型比较纯氧环境(pure oxygen environment,POE,100%氧)与空气环境(roomair environment,RAE,21%氧)复苏对新生大鼠缺氧性大脑皮质神经元超微结构的影响。方法7日龄20只SD(Sprague Dawley)乳鼠建立缺氧2.5 h模型后,分为纯氧环境组(POE)和空气环境组(RAE),每组再根据复氧后时间点分为2个亚组,即24 h组和72 h组,每亚组5只。按时间点取各组乳鼠大脑半球右侧额顶皮质行电镜样品制备,透射电镜观察。结果复氧各组均可见神经元、神经毡和细胞间隙水肿。RAE 24 h组神经元核膜结构不清,细胞器减少,线粒体肿胀、空泡化、嵴断裂;粗面内质网扩张,常呈空泡状,核糖体减少;高尔基复合体囊泡扩张;溶酶体较多。RAE 72 h组细胞器改变同前,但类似凋亡的细胞核较多,坏死细胞亦较其他组多见。POE 24 h组病变较RAE 24 h组轻。POE 72 h组细胞内线粒体及粗面内质网较丰富,病变亦比RAE 72 h组轻。结论POE复苏较RAE复苏可更能缓解缺氧致神经元超微结构的损伤、减少细胞凋亡及减轻脑水肿。提示,纯氧环境对缺氧复苏后大脑皮质神经元有一定的保护作用,并表明本动物模型适合缺氧新生大鼠大脑皮质神经元研究。     

Loss of βarrestin1 and βarrestin2 contributes to pulmonary hypoplasia and neonatal lethality in mice

Less is known about the connection between the malfunction of βarrestins and developmental defects as the mice with either of two βarrestin isoforms knockout appear normal. In order to address the biological function of βarrestins during developmental process, we generate βarrestin1/2 double knockout mice. We found that βarrestin1/2 dual-null mice developed respiratory distress and atelectasis that subsequently caused neonatal death. Morphological examination revealed type II pneumocyte immaturity. Our results indicate that not only βarrestin1/2 double knockout lung tissue show disturbances in cell proliferation but βarrestin1 and βarrestin2 contribute to pulmonary surfactant complex generation during pulmonary maturation. Intra-amniotic delivery of recombinant adenovirus expressing βarrestin1 or βarrestin2 enhances surfactant-associated proteins synthesis in vivo. Our mRNA microarray data further reveal that βarrestin1/2 double knockout results in downregulation of a significant proportion of genes involved in several lung morphogenesis processes. Together, our study demonstrates that βarrestin1 and βarrestin2 collaborate in embryonic development processes for epithelial pneumocyte differentiation and lung maturation.     

Expression and regulation of SLC39A family zinc transporters in the developing mouse intestine

Several ZIP genes (SLC39A family of metal transporters) play roles in zinc homeostasis. Herein, the temporal and spatial patterns of expression of the mouse ZIP1, 3, 4, and 5 genes in the developing intestine and the effects of maternal dietary zinc deficiency on these patterns of expression were examined. ZIP1 and ZIP3 genes, conserved members of the ZIP subfamily II, were found to be coexpressed during development. Expression of these genes was detected on day 14 of gestation in smooth muscle and the pseudostratified endoderm. By 5 days post-partum, prominent expression became restricted to muscle and connective stroma. In contrast, expression of ZIP4 and ZIP5 genes, members of the ZIP subfamily called LIV-1, coincided with epithelial morphogenesis. ZIP5 expression was detected on d16 of gestation and localized to the basolateral membranes of the single-layered epithelium. ZIP4 expression was detected on d18 of gestation and localized to the apical membrane of villus epithelial cells. When dams were fed a zinc-deficient diet beginning at parturition, ZIP4 expression in the nursing neonate was greatly induced. In contrast, neonatal ZIP5 expression remained unchanged, but this protein was removed from the basolateral membrane of the enterocyte. These responses to dietary zinc deficiency mimic those found in the adult intestine. These studies reveal cell-type-specific expression of ZIP genes during development of the intestine, and suggest that the mouse intestine can elicit an adaptive response to dietary zinc availability at birth.     

Rate and irregularity of electrical activation during atrial fibrillation affect myocardial NGF expression via different signalling routes

An irregular ventricular response during atrial fibrillation (AF) has been shown to mediate an increase in sympathetic nerve activity in human subjects. The molecular mechanisms remain unclear. This study aimed to investigate the impact of rate and irregularity on nerve growth factor (NGF) expression in cardiomyocytes, since NGF is known to be the main contributor to cardiac sympathetic innervation density. Cell cultures of neonatal rat ventricular myocytes were electrically stimulated for 48 h with increasing rates (0, 5 and 50 Hz) and irregularity (standard deviation (SD) = 5%, 25% and 50% of mean cycle length). Furthermore, we analyzed the calcineurin-NFAT and the endothelin-1 signalling pathways as possible contributors to NGF regulation during arrhythmic stimulation. We found that the increase of NGF expression reached its maximum at the irregularity of 25% SD by 5 Hz (NGF: 5 Hz 0% SD = 1 vs. 5 Hz 25% SD = 1.57, P < 0.05). Specific blockade of the ET-A receptor by BQ123 could abolish this NGF increase (NGF: 5 Hz 25% SD + BQ123 = 0.66, P < 0.05). High frequency electrical field stimulation (HFES) with 50 Hz decreased the NGF expression in a significant manner (NGF: 50 Hz = 0.55, P < 0.05). Inhibition of calcineurin-NFAT signalling with cyclosporine-A or 11R-VIVIT abolished the HFES induced NGF down-regulation (NGF: 50 Hz + CsA = 1.14, P < 0.05). In summary, this study reveals different signalling routes of NGF expression in cardiomyocytes exposed to increasing rates and irregularity. Whether this translates into different degrees of NGF expression and possibly neural sympathetic growth in various forms of ventricular rate control during AF remains to be elucidated in further studies.     

Severe hepatocellular disease in mice lacking one or both CaaX prenyltransferases

Protein farnesyltransferase (FTase) and protein geranylgeranyltransferase-I (GGTase-I) add 15- or 20-carbon lipids, respectively, to proteins that terminate with a CaaX motif. These posttranslational modifications of proteins with lipids promote protein interactions with membrane surfaces in cells, but the in vivo importance of the CaaX prenyltransferases and the protein lipidation reactions they catalyze remain incompletely defined. One study concluded that a deficiency of FTase was inconsequential in adult mice and led to little or no tissue pathology. To assess the physiologic importance of the CaaX prenyltransferases, we used conditional knockout alleles and an albumin-Cre transgene to produce mice lacking FTase, GGTase-I, or both enzymes in hepatocytes. The hepatocyte-specific FTase knockout mice survived but exhibited hepatocellular disease and elevated transaminases. Mice lacking GGTase-I not only had elevated transaminases but also had dilated bile cannaliculi, hyperbilirubinemia, hepatosplenomegaly, and reduced survival. Of note, GGTase-I-deficient hepatocytes had a rounded shape and markedly reduced numbers of actin stress fibers. Hepatocyte-specific FTase/GGTase-I double-knockout mice closely resembled mice lacking GGTase-I alone, but the disease was slightly more severe. Our studies refute the notion that FTase is dispensable and demonstrate that GGTase-I is crucial for the vitality of hepatocytes.     

A Dominant Negative Heterozygous G87R Mutation in the Zinc Transporter, ZnT-2 (SLC30A2), Results in Transient Neonatal Zinc Deficiency

Zinc is an essential mineral, and infants are particularly vulnerable to zinc deficiency as they require large amounts of zinc for their normal growth and development. We have recently described the first loss-of-function mutation (H54R) in the zinc transporter ZnT-2 (SLC30A2) in mothers with infants harboring transient neonatal zinc deficiency (TNZD). Here we identified and characterized a novel heterozygous G87R ZnT-2 mutation in two unrelated Ashkenazi Jewish mothers with infants displaying TNZD. Transient transfection of G87R ZnT-2 resulted in endoplasmic reticulum-Golgi retention, whereas the WT transporter properly localized to intracellular secretory vesicles in HC11 and MCF-7 cells. Consequently, G87R ZnT-2 showed decreased stability compared with WT ZnT-2 as revealed by Western blot analysis. Three-dimensional homology modeling based on the crystal structure of YiiP, a close zinc transporter homologue from Escherichia coli, revealed that the basic arginine residue of the mutant G87R points toward the membrane lipid core, suggesting misfolding and possible loss-of-function. Indeed, functional assays including vesicular zinc accumulation, zinc secretion, and cytoplasmic zinc pool assessment revealed markedly impaired zinc transport in G87R ZnT-2 transfectants. Moreover, co-transfection experiments with both mutant and WT transporters revealed a dominant negative effect of G87R ZnT-2 over the WT ZnT-2; this was associated with mislocalization, decreased stability, and loss of zinc transport activity of the WT ZnT-2 due to homodimerization observed upon immunoprecipitation experiments. These findings establish that inactivating ZnT-2 mutations are an underlying basis of TNZD and provide the first evidence for the dominant inheritance of heterozygous ZnT-2 mutations via negative dominance due to homodimer formation.     

创新型单手操作新生儿复苏器的研制

该复苏器操作简便、安全。只要把面罩盖住新生儿口鼻,用一只手即可对手泵吸球进行加压给氧。加压过高时能排余气并发声报警,避免发生气胸,提高抢救效果。另外,该手泵吸球可一物两用,按瘪后将长嘴放人新生儿口内或鼻孔口,放松时可吸羊水等黏液。节约原材料,降低成本,大有利于新生儿窒息复苏的推广普及。     

Brain size at birth throughout human evolution: a new method for estimating neonatal brain size in hominins

An increase in brain size is a hallmark of human evolution. Questions regarding the evolution of brain development and obstetric constraints in the human lineage can be addressed with accurate estimates of the size of the brain at birth in hominins. Previous estimates of brain size at birth in fossil hominins have been calculated from regressions of neonatal body or brain mass to adult body mass, but this approach is problematic for two reasons: modern humans are outliers for these regressions, and hominin adult body masses are difficult to estimate. To accurately estimate the brain size at birth in extinct human ancestors, an equation is needed for which modern humans fit the anthropoid regression and one in which the hominin variable entered into the regression equation has limited error. Using phylogenetically sensitive statistics, a resampling approach, and brain-mass data from the literature and from National Primate Research Centers on 362 neonates and 2802 adults from eight different anthropoid species, we found that the size of the adult brain can strongly predict the size of the neonatal brain (r² = 0.97). This regression predicts human brain size, indicating that humans have precisely the brain size expected as an adult given the size of the brain at birth. We estimated the size of the neonatal brain in fossil hominins from a reduced major axis regression equation using published cranial capacities of 89 adult fossil crania. We suggest that australopiths gave birth to infants with cranial capacities that were on average 180 cc (95% CI: 158–205 cc), slightly larger than the average neonatal brain size of chimpanzees. Neonatal brain size increased in early Homo to 225 cc (95% CI: 198–257 cc) and in Homo erectus to approximately 270 cc (95% CI: 237–310 cc). These results have implications for interpreting the evolution of the birth process and brain development in all hominins from the australopiths and early Homo, through H. erectus, to Homo sapiens.     

金双歧对早产儿坏死性小肠结肠炎预防作用的研究

目的探讨微生态制剂金双歧对早产儿早期应用是否能起到预防坏死性小肠结肠炎(NEC)的发生.方法对2000年1月～2002年12月入住青海省红十字医院新生儿,符合早产儿诊断126例,随机分治疗组、对照组.治疗组在治疗原发病的基础上,24 h内即加用双歧杆菌三联片(商品名:金双歧)口服或鼻饲,对照组只治疗原发病,观察2周内NEC的发生情况.结果治疗组62例,发生NEC 8例,对照组64例,发生NEC 20例.结论及早对早产儿补充微生态制剂,使其占据肠黏膜表面,作为生物屏障构成肠道的定植阻力,阻止致病菌入侵,或刺激机体免疫系统,增强机体免疫功能,从而起到降低早产儿NEC的发生.     

Stimulation of interstitial cell growth after selective destruction of foetal Leydig cells in the testis of postnatal rats

Summary Five-day-old male rats received a single treatment of ethane dimethanesulphonate (EDS), and the response of the testis on days 6–10 and 21 was examined by light microscopy and morphometry, supplemented by measurement of peripheral testosterone levels. One day after treatment, foetal Leydig cells degenerated, showing fragmentation, condensation and nuclear pyknosis. Macrophages phagocytosed the foetal Leydig cells resulting in their disappearance by day 7. Destruction of foetal Leydig cells was followed by an arrest of testicular growth in comparison to testes of intact age-matched control rats. In testes of EDS-treated rats, gonocytes and spermatogonia also degenerated, forming pyknotic bodies within the seminiferous cords. In contrast, interstitial fibroblasts and mesenchymal cells showed proliferative activity, which on days 4 and 5 after treatment resulted in peritubular hyperplasia surrounding each seminiferous cord. Thereafter, on day 21 after EDS administration, the previously depressed serum testosterone levels became markedly elevated coincident with the development of many immature-type Leydig cells, of which the total volume per testis was similar to that of Leydig cells in control testes, despite a four- to five-fold difference in testicular volumes. The results indicate that, although EDS destroys the foetal Leydig cells and impairs spermatogenesis, the interstitial tissue exhibits increased cell growth. The latter probably occurs in response to altered gonadotrophic stimulation and/or disturbances in the interaction between the seminiferous cords and the interstitial tissue.