MIWI/piRNA激活小鼠精子细胞mRNA翻译的新功能机制研究

哺乳动物减数分裂后期的精子发生(spermatogenesis),即精子形成(spermiogenesis),是一个剧烈的细胞形态变化过程。伴随精子细胞中细胞核压缩和染色质重构,基因转录活性将逐渐降低直至完全停止,那些为精子细胞后期阶段发育所需的基因都需要提前转录为信使核糖核酸(mRNA),然后以翻译抑制状态储存在精子细胞中,直到特定发育阶段再被激活翻译,以合成蛋白质发挥作用。这个现象被称为“转录–翻译解偶联”,是精子发生中基因表达调控的一个典型特征。然而,目前对于精子细胞中被抑制的mRNA是如何被翻译激活的还知之甚少。我们当前的这项研究发现,MIWI/piRNA通过与翻译起始因子eIF3f、RNA结合蛋白HuR等因子形成功能性翻译激活复合物,特异性地激活小鼠精子细胞中包含AU序列富含元件(AU-rich element,ARE)mRNA的翻译。此项研究揭示了PIWI/piRNA在精子细胞翻译激活中的新功能,并证明此功能为精子细胞发育和功能性精子生成所必需。     

Novel aspect of perinuclear theca assembly revealed by immunolocalization of non-nuclear somatic histones during bovine spermiogenesis

The perinuclear theca (PT) is an important accessory structure of the sperm head, yet its biogenesis is not well defined. To understand the developmental origins of PT-derived somatic histones during spermiogenesis, we used affinity-purified antibodies against somatic-type histones H3, H2B, H2A, and H4 to probe bovine testicular tissue using three different immunolocalization techniques. While undetectable in elongating spermatid nuclei, immunoperoxidase light microscopy showed all four somatic histones remained associated to the caudal head region of spermatids from steps 11 to 14 of the 14 steps in bovine spermiogenesis. Immunogold electron microscopy confirmed the localization of somatic histones on two nonnuclear structures, namely transient manchette microtubules of step-9 to step-11 spermatids and the developing postacrosomal sheath of step-13 and -14 spermatids. Immunofluorescence demonstrated somatic histone immunoreactivity in the developing postacrosomal sheath, and on anti-beta-tubulin decorated manchette microtubules of step-12 spermatids. Focal antinuclear pore complex labeling on the base of round spermatid nuclei was detected by electron microscopy and immunofluorescence, occurring before the nucleoprotein transition period during spermatid elongation. This indicated that, if nuclear histone export precedes their degradation, this process could only occur in this region, thereby questioning the proposed role of the manchette in nucleocytoplasmic trafficking. Somatic histone immunodetection on the manchette during postacrosomal sheath formation supports a role for the manchette in PT assembly, signifying that some PT components have origins in the distal spermatid cytoplasm. Furthermore, these findings suggest that somatic histones are de novo synthesized in late spermiogenesis for PT assembly.     

Protein Synthetic Activities during Spermiogenesis in the Sea Urchin: An high Resolution Autoradiographic Study of 3H-Leucine Incorporation

Protein synthetic activity has been studied during spermiogenesis of Paracentrotus lividus by high-resolution autoradiography using ³H-leucine as a labeled precursor. Under the adopted experimental conditions ³H-leucine is incorporated during the whole spermiogenesis period. The early spermatid is the most active stage and it shows labeling over the nucleus, the cytosol and the mitochondria. Nuclear ³H-leucine incorporation progressively decreases as spermiogenesis proceeds. Cytosol labeling shows similar values at early and intermediate spermatid and it undergoes a considerable decreases at late spermatid. Mitochondrial grain density increases from early to intermediate spermatid and it remains almost constant at late spermatid.
Our results are compared with the data reported for other animal groups and possible functions of the observed protein synthesis are discussed.     

精子形成期基因转录表达的研究进展

减数分裂后, 圆形精子细胞经过一系列变态过程最终发育为成熟精子。期间, 精子细胞质逐渐丢失, 其染色质组蛋白逐渐经过渡蛋白替换为鱼精蛋白, 染色质被致密包装并高度浓缩。很多学者认为, 精子转录活性被关闭, 不存在RNA。但近些年却在精子中检测到了种类繁多的转录本, 包括精子染色质重新包装所需蛋白的转录本及一些小分子RNA等。由于精子核内组蛋白没有完全被鱼精蛋白替换, 且染色质上包含一些核酸活性敏感位点, 推测精子存在一定的转录活性, 并通过激素和表观遗传修饰等调控转录。精子中的这些RNA一部分是精子形成过程中残留下来的, 另一部分是精子细胞适时表达的。深入研究精子形成中的基因转录表达, 可增进对精子形成与成熟遗传本质的理解, 为高效利用雄性配子进行生殖控制提供理论依据。文章综述了近年来精子形成期基因转录表达的研究进展, 并提出了未来的研究方向。     

Arginine-rich nucleoprotein transition occurs in the two size classes of spermatozoa of Drosophila subobscura males

The normal male of Drosophila subobscura displays polymegaly, which is the presence of two sizes of spermatozoa in the same testis. It is still unknown whether both kinds of sperm are able to fertilize the egg. An indicator of normal functioning of Drosophila spermatozoa is the replacement of the somatic histones by sperm-specific arginine-rich nucleoproteins during spermiogenesis. The appearance of these arginine-rich nucleoproteins in the two kinds of sperm was investigated using the fluorescent dye sulfoflavine, which stains basic proteins at pH 8. In the spherical nuclei of early spermatids of Drosophila subobscura the somatic histones fluoresced strongly, but fluorescence could not be detected in later stages when the spermatid nuclei were elongating. After elongation, however, the nuclei of both kinds of sperm, long and short, fluoresced brightly again, due to the presence of sperm-specific arginine-rich nucleoproteins. Half of the cysts of both types contained spermatid nuclei with aberrant fluorescent pattern including 5–9% of both cyst types which do not undergo histone transition at all. These results indicate that both sperm types may be functional.     

Nuclear protein transitions in cuttle-fish spermiogenesis: Immunocytochemical localization of a protein specific for the spermatid stage

The changes in basic nuclear proteins throughout cuttle-fish spermiogenesis were investigated both by immunocytochemical procedures and by isolation of late spermatid nuclei (by virtue of their resistance to sonication). Antibodies were raised in rabbits to a protein, named protein T, isolated from testis chromatin. The anti-protein T immune serum was found to recognize protein T and not histones from the testis. Immunoperoxidase staining of sections or of smears of testis with anti-protein T antibodies showed that protein T appears in the nuclei of round spermatids, is abundant in elongating spermatid nuclei, but cannot be detected in elongated spermatids. Nuclei from these elongated spermatids were isolated by sonication treatment of testis cells. A protein, named protein Sp, with the characteristic mobility of a protamine, was isolated from elongated spermatid nuclei. This protein has the same mobility as the protamine present in mature spermatozoa. Taken together, the results indicate that in cuttle-fish, nuclear protein transitions involve the replacement of histones by a spermatid-specific protein (protein T), which is replaced at the end of elongation of the nucleus by a protamine (protein Sp). Thus, spermiogenesis of the cuttle-fish (and perhaps of other cephalopods), shows two basic nuclear protein transitions, which are similar to the transitions observed in higher vertebrates such as mammals.     

miwi,a murine homolog of piwi,encodes a cytoplasmic protein essential for spermatogenesis

The piwi family genes are crucial for stem cell self-renewal, RNA silencing, and translational regulation in diverse organisms. However, their function in mammals remains unexplored. Here we report the cloning of a murine piwi gene (miwi) essential for spermatogenesis. miwi encodes a cytoplasmic protein specifically expressed in spermatocytes and spermatids. miwi(null) mice display spermatogenic arrest at the beginning of the round spermatid stage, resembling the phenotype of CREM, a master regulator of spermiogenesis. Furthermore, mRNAs of ACT (activator of CREM in testis) and CREM target genes are downregulated in miwi(null) testes. Whereas MIWI and CREM do not regulate each other's expression, MIWI complexes with mRNAs of ACT and CREM target genes. Hence, MIWI may control spermiogenesis by regulating the stability of these mRNAs.     

Insights into role of bromodomain, testis-specific (Brdt) in acetylated histone H4-dependent chromatin remodeling in mammalian spermiogenesis

Mammalian spermiogenesis is of considerable biological interest especially due to the unique chromatin remodeling events that take place during spermatid maturation. Here, we have studied the expression of chromatin remodeling factors in different spermatogenic stages and narrowed it down to bromodomain, testis-specific (Brdt) as a key molecule participating in chromatin remodeling during rat spermiogenesis. Our immunocytochemistry experiments reveal that Brdt colocalizes with acetylated H4 in elongating spermatids. Remodeling assays showed an acetylation-dependent but ATP-independent chromatin reorganization property of Brdt in haploid round spermatids. Furthermore, Brdt interacts with Smarce1, a member of the SWI/SNF family. We have studied the genomic organization of smarce1 and identified that it has two splice variants expressed during spermatogenesis. The N terminus of Brdt is involved in the recognition of Smarce1 as well as in the reorganization of hyperacetylated round spermatid chromatin. Interestingly, the interaction between Smarce1 and Brdt increases dramatically upon histone hyperacetylation both in vitro and in vivo. Thus, our results indicate this interaction to be a vital step in the chromatin remodeling process during mammalian spermiogenesis.     

Ultrastructure of spermiogenesis and spermatozoa in Prorhynchus sp. (Platyhelminthes,Lecithoepitheliata, Prorhynchidae)

Summary

Mature sperm of Prorhynchus sp. have an elongated nucleus, multiple mitochondria and dense bodies, and two free axonemes which are located in grooves of the main shaft for much of their length. The axonemes are subterminally inserted and have the typical 9+ ‘1’ arrangement unique to Platyhelminthes and synapomorphic for taxa of Trepaxonemata. The testis follicles examined had small numbers of developing spermatids and very few mature sperm were present. During spermiogenesis, spermatids remain joined in clusters by distinctive bridges. In each spermatid two centrioles (with an intercentriolar body between them) give rise to free axonemes which grow out in opposite directions from each other. Indistinct ciliary rootlets are present. The axonemes are carried distally from the main spermatid mass on an elongating process and turn back towards the main spermatid mass. Nucleus, mitochondria and dense bodies move into the shaft, and the spermatid elongates before detaching from others in the cluster. This is the first detailed study of sperm and spermiogenesis in Lecithoepitheliata. Mature sperm are distinctly different from those of prolecithophorans, to which they are reputedly related, the latter having aflagellate sperm without dense bodies.     

Spatiotemporal Organization of AT- and GC-rich DNA and Their Association With Transition Proteins TP1 and TP2 in Rat Condensing Spermatids

Transition protein 1 (TP1) and TP2 replace histones during midspermiogenesis (stages 12–15) and are finally replaced by protamines. TPs play a predominant role in DNA condensation and chromatin remodeling during mammalian spermiogenesis. TP2 is a zinc metalloprotein with two novel zinc finger modules that condenses DNA in vitro in a GC-preference manner. TP2 also localizes to the nucleolus in transfected HeLa and Cos-7 cells, suggesting a GC-rich preference, even in vivo. We have now studied the localization pattern of TP2 in the rat spermatid nucleus. Colocalization studies using GC-selective DNA-binding dyes chromomycin A3 and 7-amino actinomycin D and an AT-selective dye, 4′,6-diamidino-2-phenylindole, indicate that TP2 is preferentially localized to GC-rich sequences. Interestingly, as spermatids mature, TP2 and GC-rich DNA moves toward the nuclear periphery, and in the late stages of spermatid maturation, TP2 is predominantly localized at the nuclear periphery. Another interesting observation is the mutually exclusive localization of GC- and AT-rich DNA in the elongating and elongated spermatids. A combined immunofluorescence experiment with anti-TP2 and anti-TP1 antibodies revealed several foci of overlapping localization, indicating that TP1 and TP2 may have concerted functional roles during chromatin remodeling in mammalian spermiogenesis. (J Histochem Cytochem 57:951–962, 2009)     

Developmental expression of spermatid-specific thioredoxin-1 protein: transient association to the longitudinal columns of the fibrous sheath during sperm tail formation

The mammalian sperm tail presents a complex organization in which a number of additional structures, namely outer dense fibers and fibrous sheath, surround the central axoneme and are thought to regulate flagellar motility. We have previously described a novel member of the thioredoxin family of proteins with a spermatid specific expression pattern, spermatid-specific thioredoxin-1 (Sptrx-1). We report here the developmental analysis of Sptrx-1 expression during murine spermiogenesis. Immunocytochemical analysis of Sptrx-1 through the different steps of spermiogenesis in rat seminiferous tubule sections showed that its expression begins at step 9, gets progressively stronger until steps 14-16 (where a peak is reached), and then diminishes in steps 17 and 18 until practically no immunolabeling is detected in step 19 spermatid. During its transient expression in spermiogenesis, Sptrx-1 is most concentrated in the periaxonemal compartment of the tail of the elongating spermatid, except in the very last steps (steps 17-19), when periaxonemal labeling disappears and a residual buildup of Sptrx-1 occurs in the shrinking cytoplasmic lobe. Electron microscopic analysis by immunogold labeling pinpointed the localization of Sptrx-1 to the assembling longitudinal columns of the fibrous sheath, whereas the forming ribs of the fibrous sheath were unlabeled. Immunoblotting of isolated fibrous sheath and tails obtained from epididymal or ejaculated sperm of rat and human confirmed our immunocytochemical observation: Sptrx-1 is no longer a component of the mature fibrous sheath. To our knowledge, this is the first report of a protein that specifically associates to the fibrous sheath during development but does not become a permanent structural component. The expression pattern of Sptrx-1 during rat spermiogenesis suggests that it could be part of a nucleation center for the formation of the longitudinal columns and transverse ribs that bridge the latter.     

Spermatogenesis in free living mite, Pergamasus viator Hala?. (Parasitidae, Mesostigmata). II. Spermiogenesis.

The paper presents the results of ultrastructural studies on the spermiogenesis in the mite, Pergamasus viator Hala?kova. The cysts containing 16 spermatids per cyst, are localized in the anterior part of the saccular gonad. The process of spermatid maturation has been divided into three stages: of the early spermatid, middle spermatid and late spermatid. The modifications of spermatid occuring during the spermiogenesis include: a change of cell shape, modifications of its organelles and formation of new structures like the superficial layer of cellular processes, striated bodies, granular bodies, flattened cisternae and canaliculi, central canaliculi, and stiff bands. Within the nucleus the chromatin condenses to threads or lamellae, to form subsequently several electron-dense granules. The remaining nucleoplasm is filled with an electron-dense material, which appears in the middle spermatid and gradually accumulates. The above modifications occuring in the course of spermiogenesis and their relation to the data available from the literature concerning the spermatogenesis of allied groups of animals are discussed in length.