Detection of fibrillarin in nucleolar remnants and the nucleolar matrix

In order to gain further insights into the fundamental structure of the nucleolus, nucleolar remnants of Xenopus and chickens were examined for the presence of fibrillarin and nucleolus organizer region (NOR) silver staining. Nucleolar remnants of Xenopus nucleated red blood cells were found to contain easily detectable amounts of fibrillarin and NOR silver staining. Upon examination of various tissues, fibrillarin and NOR silver staining were detected in nucleoli of Xenopus liver hepatocytes and within nucleoli of oocytes and follicle cells from ovaries of mature female toads. By comparison, nucleolar remnants of adult chicken nucleated red blood cells contained only trace amounts of fibrillarin and NOR silver staining, whereas red blood cell nucleolar remnants of immature chicks had easily detectable amounts of fibrillarin and NOR silver staining. Nucleoli from hepatocytes of both adult and immature chickens demonstrated comparable levels of fibrillarin and NOR silver staining. Since fibrillarin was found in nucleolar remnant structures, we tested for (and detected) its presence in residual nucleoli of in situ nuclear matrix derived from HeLa cells. These findings are discussed in terms of the basic structural and functional organization of the nucleolus.     

蛋白激酶C_ζ对小鼠受精卵发育早期基因组转录活化的影响

为研究蛋白激酶Cζ (proteinkinaseCζ ,PKCζ)在小鼠受精卵细胞早期发育过程中对胚胎基因组活化影响 ,采用免疫印迹和细胞免疫荧光的方法 ,观察PKCζ的抑制剂对小鼠受精卵 1 细胞期G1和G2 不同时期小鼠受精卵基因组活化的影响 .小鼠 1 细胞期受精卵蛋白激酶C (PKC)的活性不断增加 ,并在G2 期达到最高 .PKC的抑制剂calphostinC可以明显抑制PKC的活性达 4 7% .同时calphostinC对受精卵 1 细胞期基因组的早期活化具有显著的抑制作用 (P <0 0 1) .在小鼠 1 细胞期受精卵的G2 期 ,具有活性的磷酸化PKCζ的含量明显多于G1期和卵母细胞MⅡ期 ,分别比它们高2 7%和 110 % .PKCζ的特异性抑制剂可以抑制受精卵 1 细胞期基因的转录和活化 (P <0 0 5 ) .实验结果表明 ,PKCζ参与了小鼠受精卵基因组早期转录的调控     

Nucleolar changes in bovine nucleotransferred embryos.

This study focused on nucleolar changes in bovine embryos reconstructed from enucleated mature oocytes fused with blastomeres of morulae or with cultured, serum unstarved bovine fetal skin fibroblasts (embryonic vs. somatic cloning). The nucleotransferred (NT) embryos were collected and fixed at time intervals of 1-2 h (early 1-cell stage), 10-15 h (late 1-cell stage), 22-24 h (2-cell stage), 37-38 h (4-cell stage), 40-41 h (early 8-cell stage), 47-48 h (late 8-cell stage), and 55 h (16-cell stage) after fusion. Immunocytochemistry by light and electron microscopy was used for structure-function characterization of nucleolar components. Antibodies against RNA, protein B23, protein C23, and fibrillarin were applied. In addition, DNA was localized by the terminal deoxynucleotidyl transferase (TdT) technique, and the functional organization of chromatin was determined with the nick-translation immunogold approach. The results show that fully reticulated (active) nucleoli observed in donor cells immediately before fusion as well as in the early 1-cell stage after fusion were progressively transformed into nucleolar bodies displaying decreasing numbers of vacuoles from the 2- to 4-cell stage in both types of reconstructed embryos. At the late 8-cell stage, morphological signs of resuming nucleolar activity were detected. Numerous new small vacuoles appeared, and chromatin blocks reassociated with the nucleolar body. During this period, nick-translation technique revealed numerous active DNA sites in the periphery of chromatin blocks associated with the nucleolar body. Fully reticulated nucleoli were again observed as early as the 16-cell stage of embryonic cloned embryos. In comparison, the embryos obtained by fetal cloning displayed a lower tendency to develop, mainly during the first cell cycle and during the period of presumed reactivation. Correlatively, the changes in nucleolar morphology (desegregation and rebuilding) were at least delayed in many somatic NT embryos in comparison with the embryonic NT group. It is concluded that complete reprogramming of rRNA gene expression is part of the general nuclear reprogramming necessary for development after NT.     

Changes in nuclear localization of An3, a RNA helicase,during oogenesis and embryogenesis in Xenopus laevis

The immunolocalization of An3 protein, an ATP-dependent RNA helicase and a member of the DEAD box family, was compared with the localization of fibrillarin, a protein essential for rRNA processing, and snRNPs, which are involved in mRNA splicing reactions, during oogenesis and embryogenesis in Xenopus laevis. Although An3 protein was detected in the cytoplasm of all stages of oocytes, in most stages An3 protein was also present in the nucleus. Prior to stage I An3 protein was uniformly dispersed throughout the entire germinal vesicle; from stages I to V it was in nucleoli. By stage VI nucleolar labeling with anti An3 disappeared and the protein was no longer present within nuclei. An3 reactivity was also present throughout the nuclei of follicle cells surrounding prestage I to stage VI oocytes. Both cytoplasmic and nuclear An3 staining were present in cells of stages 8 to 35 embryos; however, nuclear staining was punctate and uniformly distributed throughout the nucleoplasm. Fibrillarin was diffusely distributed throughout the entire germinal vesicle prior to stage I, localized exclusively to nucleoli of oocytes between stages I and VI and in nucleoli of stages 12 and 35 embryonic cells. Reactivity for snRNPs (anti-Sm) in germinal vesicles of prestage I oocytes was diffuse, and similar to the distribution of An3 and fibrillarin; in later stage oocytes anti-Sm staining was restricted to a population of granules, much fewer in number and more heterogeneous in size than nucleoli. Anti-Sm activity was apparent in nuclei of embryonic cells of stages 8 to 35 embryos. Although colocalization of the Sm epitope and An3 was not observed in developing oocytes and in embryonic cells, Sm reactive material was frequently found in close association with An3-positive nucleoli (oocytes) and nuclear deposits (embryonic cells). In stage IV and V oocytes treated with actinomycin D (4 μg/ml) to inhibit rRNA synthesis, nucleoli, which continued to possess fibrillarin, lacked An3; staining of follicle cell nuclei for An3 was unchanged. Treatment with 200 μg/ml actinomycin D to block mRNA synthesis, inhibited An3 but not fibrillarin staining in nuclei of prestage I oocytes and follicle cells. The changing patterns of An3 reactivity and the differential effects of actinomycin D on such localizations observed here are consistent with a role for An3 in the processing/production of RNA. © 1996 Wiley-Liss, Inc.