MicroRNAome of Porcine Pre- and Postnatal Development

The domestic pig is of enormous agricultural significance and valuable models for many human diseases. Information concerning the pig microRNAome (miRNAome) has been long overdue and elucidation of this information will permit an atlas of microRNA (miRNA) regulation functions and networks to be constructed. Here we performed a comprehensive search for porcine miRNAs on ten small RNA sequencing libraries prepared from a mixture of tissues obtained during the entire pig lifetime, from the fetal period through adulthood. The sequencing results were analyzed using mammalian miRNAs, the precursor hairpins (pre-miRNAs) and the first release of the high-coverage porcine genome assembly (Sscrofa9, April 2009) and the available expressed sequence tag (EST) sequences. Our results extend the repertoire of pig miRNAome to 867 pre-miRNAs (623 with genomic coordinates) encoding for 1,004 miRNAs, of which 777 are unique. We preformed real-time quantitative PCR (q-PCR) experiments for selected 30 miRNAs in 47 tissue-specific samples and found agreement between the sequencing and q-PCR data. This broad survey provides detailed information about multiple variants of mature sequences, precursors, chromosomal organization, development-specific expression, and conservation patterns. Our data mining produced a broad view of the pig miRNAome, consisting of miRNAs and isomiRs and a wealth of information of pig miRNA characteristics. These results are prelude to the advancement in pig biology as well the use of pigs as model organism for human biological and biomedical studies.     

Proliferation of Cardiomyocytes and Interstitial Cells In the Cardiac Muscle of the Mouse During Pre- and Postnatal Development

Proliferation of cardiomyocytes and interstitial cells in the cardiac ventricle of the mouse during pre- and postnatal development was studied. Furthermore, the number of cardiomyocyte and interstitial cell nuclei per unit area was determined on histological sections. The labelling index of cardiomyocytes decreases from 23% on day 14 of gestation to about zero at 3 weeks after birth. the number of cardiomyocyte nuclei per unit area increases up to day 16 of gestation and then continuously declines. This coincides with the concept that the increase in size of the heart during early fetal life is mainly due to hyperplasia, while during late fetal life and after birth it is mainly, and during adult life exclusively, due to hypertrophy of cardiomyocytes. Proliferation of interstitial cells continues up to 5 days after birth and then decreases. the ratio of cardiomyocytes to interstitial cells decreases by a factor of about 10 between day 14 of gestation and 3 weeks after birth.     

The Spatiotemporal Development of Intercalated Disk in Three-Dimensional Engineered Heart Tissues Based on Collagen/Matrigel Matrix

Intercalated disk (ID), which electromechanically couples cardiomyocytes into a functional syncitium, is closely related to normal morphology and function of engineered heart tissues (EHTs), but the development mode of ID in the three-dimensional (3D) EHTs is still unclear. In this study, we focused on the spatiotemporal development of the ID in the EHTs constructed by mixing neonatal rat cardiomyocytes with collagen/Matrigel, and investigated the effect of 3D microenvironment provided by collagen/Matrigel matrix on the formation of ID. By histological and immmunofluorescent staining, the spatiotemporal distribution of ID-related junctions was detected. Furthermore, the ultra-structures of the ID in different developmental stages were observed under transmission electron microscope. In addition, the expression of the related proteins was quantitatively analyzed. The results indicate that accompanying the re-organization of cardiomyocytes in collagen/Matrigel matrix, the proteins of adherens junctions, desmosomes and gap junctions redistributed from diffused distribution to intercellular regions to form an integrated ID. The adherens junction and desmosome which are related with mechanical connection appeared earlier than gap junction which is essential for electrochemical coupling. These findings suggest that the 3D microenvironment based on collagen/Matrigel matrix could support the ordered assembly of the ID in EHTs and have implications for comprehending the ordered and coordinated development of ID during the functional organization of EHTs.     

The Impact of Juvenile Coxsackievirus Infection on Cardiac Progenitor Cells and Postnatal Heart Development

Coxsackievirus B (CVB) is an enterovirus that most commonly causes a self-limited febrile illness in infants, but cases of severe infection can manifest in acute myocarditis. Chronic consequences of mild CVB infection are unknown, though there is an epidemiologic association between early subclinical infections and late heart failure, raising the possibility of subtle damage leading to late-onset dysfunction, or chronic ongoing injury due to inflammatory reactions during latent infection. Here we describe a mouse model of juvenile infection with a subclinical dose of coxsackievirus B3 (CVB3) which showed no evident symptoms, either immediately following infection or in adult mice. However following physiological or pharmacologically-induced cardiac stress, juvenile-infected adult mice underwent cardiac hypertrophy and dilation indicative of progression to heart failure. Evaluation of the vasculature in the hearts of adult mice subjected to cardiac stress showed a compensatory increase in CD31⁺ blood vessel formation, although this effect was suppressed in juvenile-infected mice. Moreover, CVB3 efficiently infected juvenile c-kit⁺ cells, and cardiac progenitor cell numbers were reduced in the hearts of juvenile-infected adult mice. These results suggest that the exhausted cardiac progenitor cell pool following juvenile CVB3 infection may impair the heart''s ability to increase capillary density to adapt to increased load.     

Intercellular Electrical Communication in the Heart: A New,Active Role for the Intercalated Disk

Abstract

Cardiac conduction is the propagation of electrical excitation through the heart and is responsible for triggering individual myocytes to contract in synchrony. Canonically, this process has been thought to occur electrotonically, by means of direct flow of ions from cell to cell. The intercalated disk (ID), the site of contact between adjacent myocytes, has been viewed as a structure composed of mechanical junctions that stabilize the apposition of cell membranes and gap junctions which constitute low resistance pathways between cells. However, emerging evidence suggests a more active role for structures within the ID in mediating intercellular electrical communication by means of non-canonical ephaptic mechanisms. This review will discuss the role of the ID in the context of the canonical, electrotonic view of conduction and highlight new, emerging possibilities of its playing a more active role in ephaptic coupling between cardiac myocytes.     

心肌闰盘横纹切片制作改良法

心肌闰盘(intercalated disk)为心肌组织内同步兴奋的特化结构.心肌细胞末端互相连接成网,闰盘分布在细胞间连接处,在HE染色标本中呈深红色,需仔细辨认才行.而心肌闰盘及横纹是心肌结构中必须要观察的一部份,常规方法显示其结构,如Retterr氏法、Hemalinin氏法以及碘酸钠-苏木精心肌闰盘整块染色法,但步骤繁琐,染色不够稳定,常消耗大量的药品和人力.经我们改进整块组织染色切片,比其单片染色的更加清晰可辨,且易于批量制作教学切片.简介如下.     

Overlapping Cardiac Programs in Heart Development and Regeneration

Gaining cellular and molecular insights into heart development and regeneration will likely provide new therapeutic targets and opportunities for cardiac regenerative medicine,one of the most urgent clinical needs for heart failure.Here we present a review on zebrafish heart development and regeneration,with a particular focus on early cardiac progenitor development and their contribution to building embryonic heart,as well as cellular and molecular programs in adult zebrafish heart regeneration.We attempt to emphasize that the signaling pathways shaping cardiac progenitors in heart development may also be redeployed during the progress of adult heart regeneration.A brief perspective highlights several important and promising research areas in this exciting field.     

Coxsackievirus-Induced miR-21 Disrupts Cardiomyocyte Interactions via the Downregulation of Intercalated Disk Components

Intercalated disks (ICDs) are substantial connections maintaining cardiac structures and mediating signal communications among cardiomyocytes. Deficiency in ICD components such as desmosomes, fascia adherens and gap junctions leads to heart dysfunction. Coxsackievirus B3 (CVB3) infection induces cardiac failure but its pathogenic effect on ICDs is unclear. Here we show that CVB3-induced miR-21 expression affects ICD structure, i.e., upregulated miR-21 targets YOD1, a deubiquitinating enzyme, to enhance the K48-linked ubiquitination and degradation of desmin, resulting in disruption of desmosomes. Inhibition of miR-21 preserves desmin during CVB3 infection. Treatment with proteasome inhibitors blocks miR-21-mediated desmin degradation. Transfection of miR-21 or knockdown of YOD1 triggers co-localization of desmin with proteasomes. We also identified K108 and K406 as important sites for desmin ubiquintination and degradation. In addition, miR-21 directly targets vinculin, leading to disturbed fascia adherens evidenced by the suppression and disorientation of pan-cadherin and α-E-catenin proteins, two fascia adherens-components. Our findings suggest a new mechanism of miR-21 in modulating cell-cell interactions of cardiomyocytes during CVB3 infection.     

Pre- and Postnatal Nutritional Histories Influence Reproductive Maturation and Ovarian Function in the Rat

Background

While prepubertal nutritional influences appear to play a role in sexual maturation, there is a need to clarify the potential contributions of maternal and childhood influences in setting the tempo of reproductive maturation. In the present study we employed an established model of nutritional programming to evaluate the relative influences of prenatal and postnatal nutrition on growth and ovarian function in female offspring.

Methods

Pregnant Wistar rats were fed either a calorie-restricted diet, a high fat diet, or a control diet during pregnancy and/or lactation. Offspring then were fed either a control or a high fat diet from the time of weaning to adulthood. Pubertal age was monitored and blood samples collected in adulthood for endocrine analyses.

Results

We report that in the female rat, pubertal timing and subsequent ovarian function is influenced by the animal''s nutritional status in utero, with both maternal caloric restriction and maternal high fat nutrition resulting in early pubertal onset. Depending on the offspring''s nutritional history during the prenatal and lactational periods, subsequent nutrition and body weight gain did not further influence offspring reproductive tempo, which was dominated by the effect of prenatal nutrition. Whereas maternal calorie restriction leads to early pubertal onset, it also leads to a reduction in adult progesterone levels later in life. In contrast, we found that maternal high fat feeding which also induces early maturation in offspring was associated with elevated progesterone concentrations.

Conclusions

These observations are suggestive of two distinct developmental pathways leading to the acceleration of pubertal timing but with different consequences for ovarian function. We suggest different adaptive explanations for these pathways and for their relationship to altered metabolic homeostasis.     

人类心脏发育缺陷的分子机理

为了探索心脏发育的缺陷及遗传机制以及在分子水平上先天性心脏病的发生机理,概述了人类心脏发育缺陷的研究进展,包括人类心脏不对称发育、心脏发育缺陷和心脏缺陷的分子机理.     

Engineering Cardiac Cell Junctions In Vitro to Study the Intercalated Disc

Abstract

This review article discusses a recent work using engineered cardiac cells to study the function of the intercalated disc putting emphasis on mechanical and electrical coupling.     

Effects of Pre- and Postnatal Exposure to Chromium Picolinate or Picolinic Acid on Neurological Development in CD-1 Mice

Chromium picolinate, Cr(pic)3, a popular dietary supplement marketed as an aid in fat loss and lean muscle gain, has also been suggested as a therapy for women with gestational diabetes. The current study investigated the effects of maternal exposure to Cr(pic)3 and picolinic acid during gestation and lactation on neurological development of the offspring. Mated female CD-1 mice were fed diets from implantation through weaning that were either untreated or that contained Cr(pic)3 (200 mg kg(-1) day(-1)) or picolinic acid (174 mg kg(-1) day(-1)). A comprehensive battery of postnatal tests was administered, including a modified Fox battery, straight-channel swim, open-field activity, and odor-discrimination tests. Pups exposed to picolinic acid tended to weigh less than either control or Cr(pic)3-exposed pups, although the differences were not significant. Offspring of picolinic acid-treated dams also appeared to display impaired learning ability, diminished olfactory orientation ability, and decreased forelimb grip strength, although the differences among the treatment groups were not significant. The results indicate that there were no significant effects on the offspring with regard to neurological development from supplementation of the dams with either Cr(pic)3 or picolinic acid.     

视黄酸通路的启示——从心脏发育到心肌谱系定向分化

多潜能干细胞具有无限增殖的能力,并能够分化为心肌细胞,因此在心脏再生方面拥有巨大潜力.胚胎发育过程为干细胞定向分化提供了重要线索,在过去的几年中,通过操控心脏发育关键通路,在心肌定向分化方面取得了重要进展,但是现有的分化方法仍不能稳定地诱导心肌细胞,表明现有的通路不能有效解决这些问题.视黄酸(RA)通路在心脏发育过程中发挥重要作用,RA缺失会导致心房变小、心室小梁减少、心肌壁增厚且细胞间连接松散.在体外心肌定向分化过程中,RA多用于促进多潜能干细胞向心房分化.但从RA通路基因敲除小鼠的表型来看,除了调控心肌亚型分化,RA在多个发育阶段发挥重要作用.深入解析RA在心肌分化各阶段的作用机制,将有助于获得高质量的心肌细胞.同时,研究RA在心内膜和心外膜分化中的作用机制也有助于解释RA通路敲除小鼠的心脏异常.总之,从RA在胚胎发育中的作用来看,需要更多的体外研究来揭示RA在心肌谱系分化中的作用.本文综述了RA通路在心脏发育的心肌分化过程中的作用,并探讨了需要解决的问题.     

Embryonic Development and Postnatal Changes in Free d-Aspartate and d-Serine in the Human Prefrontal Cortex

Abstract: We have analyzed free chiral amino acids (aspartate and serine) in the human frontal cortex at different ontogenic stages (from 14 weeks of gestation to 101 years of age) by HPLC with fluorometric detection after derivatization with N-tert -butyl-oxycarbonyl- l -cysteine and o -phthaldialdehyde. Exceptionally high levels of free d -aspartate and d -serine were demonstrated in the fetal cortex at gestational week 14. The ratios of d -aspartate and of d -serine to the total corresponding amino acids were also high, at 0.63 and 0.27, respectively. The concentration of d -aspartate dramatically decreased to a trace level by gestational week 41 and then remained very low during all postnatal stages. In contrast, the frontal tip contained persistently high levels of d -serine throughout embryonic and postnatal life, whereas the d -amino acid content in adolescents and aged individuals was about half of that in the fetuses. Because d -aspartate and d -serine are known to have selective actions at the NMDA-type excitatory amino acid receptor, the present data suggest that these d -amino acids might play a pivotal role in cerebral development and functions that are related to the NMDA receptor.     

The Expression of EPOR in Renal Cortex during Postnatal Development

Erythropoietin (EPO), known for its role in erythroid differentiation, has been shown to be an important growth factor for brain and heart. EPO is synthesized by fibroblast-like cells in the renal cortex. Prompted by this anatomical relationship and its significant impact on the maturation process of brain and heart, we asked whether EPO could play a role during the development of renal cortex. The relationship between the development of renal cortex and the change of EPO receptor (EPOR), through which EPO could act as a renotropic cytokine, became interesting to us. In this study, the day of birth was recorded as postnatal day 0(P0). P7, P14, P21, P28, P35, P42 and mature mice (postnatal days>56) were used as the animal model of different developmental stages. Immunohistochemistry and Western blotting were used to detect the expression of EPOR in mouse renal cortex. Results showed that expression of EPOR decreased with the development of renal cortex and became stable when kidney became mature. The expression of EPOR was detected at the renal tubule of all developmental stages and a relatively higher expression was observed at P14. However, at the renal corpuscle the expression was only observed at P7 and quickly became undetectable after that. All these suggested that a translocation of EPOR from renal corpuscle to renal tubule may take place during the developmental process of renal cortex. Also, EPO may be an essential element for the maturation of renal cortex, and the requirement for EPO was changed during postnatal development process.     

Respiratory Cardiac Arrhythmia in Postnatal Ontogenesis of Rats

Development of the respiratory cardiac arrhythmia and the role of parasympathetic nervous system in its origin have been studied in rats aged from 4–6 days to 6 months of life. In rat pups of the first week of life, small fluctuations of cardiac rhythm were observed with the frequency close to fluctuations of respiratory rhythm. However, at this age they had neither regular character nor clear connection with phases of the respiratory cycle. On the 2–3rd week the amplitude of fluctuations rose and their association with respiration was established; however, unlike the respiratory arrhythmia observed in other animals and human, in rat pups there was deceleration but not acceleration of heart beating. By to the 6-week age the respiratory arrhythmia reached the maximal values, then its amplitude began to decrease. Bilateral transection of the vagus nerves in rat pups did not cause reduction of the respiratory arrhythmia. Thus, in rats the central influences on the heart can be transduced by bypassing the system of vagus nerves.     

电磁脉冲诱导大鼠心肌闰盘Cx43连接蛋白的上调

目的:探讨电磁脉冲(EMP)对SD大鼠心肌闰盘及主要连接蛋白Cx43的影响.方法:将雄性SD大鼠35只,随机分为对照组和EMP辐照组,EMP辐照组又分为照后即刻、1h、3h、6h、12h、24h组,每组5只大鼠.应用EMP模拟发生器对EMP辐照组大鼠进行辐照,场强为200 kV/m、前沿15 ns、脉宽7-8 ns、脉冲次数200次,脉冲间隔为7s,麻醉后取大鼠左心室,采用硝酸镧示踪法和透射电子显微镜观察大鼠心肌闰盘(ID)结构的变化,用Real-Time PCR方法和Western blot方法检测EMP辐照后,大鼠连接蛋白Cx43在转录水平和蛋白水平表达量的变化情况.结果:电镜下正常对照组大鼠心肌ID处未见硝酸镧颗粒沉积;EMP组大鼠ID处可见硝酸镧颗粒,且随时间的延长,硝酸镧颗粒沉积量逐渐增多,以照后6h组硝酸镧颗粒沉积量达最大,然后硝酸镧颗粒沉积量随时间延长逐渐减少,24h组恢复正常.心肌细胞Cx43的mRNA表达水平在EMP照后lh和6h明显增高,分别是对照组的1.95、3.10倍(P＜0.05);照后即刻、3h、12h、24h表达水平与对照组相比差异无统计学意义(P＞0.05).Western blot结果为照后即刻、1h、3h和6h组大鼠心肌细胞Cx43蛋白表达量与对照组比较显著增加,12h、24h与对照组相比差异无统计学意义(P＞0.05).结论:EMP可使心肌闰盘结构发生改变,上调Cx43蛋白的mRNA水平和蛋白表达量.