The embryonic nucleologenesis during inhibition of major transcriptional activity in bovine preimplantation embryos

Common features of embryonic genome activation in mammalian and non-mammalian embryos are the colocalization of pre-assembled complexes of maternally inherited nucleolar proteins, the so-called nucleolus precursor bodies and de novo synthesized transcripts with ribosomal DNA. The de novo transcription of messenger RNA and ribosomal RNA proteins is required for the development of functional nuclei during the major activation of the embryonic genome. The aim of our work was to investigate to what extent. Autoradiography and transmission electron microscopy has been applied in in vitro produced bovine embryos. The embryos were cultured to the late 8-cell stage with: α-amanitin; a specific inhibitor of RNA-polymerases II and III transcription; actinomycin D; a specific inhibitor of RNA polymerase I transcription; and without inhibitors (control group). Nucleoplasm and nucleolar structures displayed strong autoradiographic labeling and showed the initial development of fibrillo-granular nucleoli in the control group. In α-amanitin groups, however, in both inhibited groups of embryos, lack of autoradiographic labeling and disintegrated nucleolus precursor bodies stage were observed. Our study of α-amanitin as well as in actinomycin D groups proves inhibition of transformation nucleolus precursor bodies to active nucleoli. From our results follows, actinomycin D is able to penetrate through zona pellucida, what was shown for the first time.

The role of RNA-polymerase II transcription in embryonic nucleologenesis by bovine embryos

The early stages of embryonic development are maternally driven. As development proceeds, maternally inherited informational molecules decay, and embryogenesis becomes dependent on de novo synthesized RNAs of embryonic genome. The aim of the present study is to investigate the role of de novo transcription in the development of embryos during embryonic genome activation. Autoradiography for detection of transcriptional activity and transmission electron microscopy were applied in in vitro produced bovine embryos cultured to the late 8-cell stage with or without (control group) α-amanitin, specific inhibitor of RNA-polymerases II and III transcription. The α-amanitin (AA) groups presented three sets of embryos cultivated with AA in different time intervals (6, 9 and 12 h). In control group, nucleoplasm and nucleolar structures displayed strong autoradiographic labeling and showed initial development of fibrillo-granular nucleoli. In α-amanitin groups, lack of autoradiographic labeling and disintegrated nucleolus precursor bodies (NPBs) stage were observed. Inhibition of RNA polymerase II (RNA pol II) already in the early phases of embryonic genome activation has detrimental effect on nucleolar formation and embryo survival, what was shown for the first time.

Demonstration of the cell cycle positions of taxol-induced "asters" and "bundles" by sequential measurements of tubulin immunofluorescence, DNA content, and autoradiographic labeling of taxol-sensitive and -resistant cells.

We used reliable and relatively inexpensive equipment to make sequential sets of measurements of antitubulin immunofluorescence, Feulgen staining, and autoradiography on the same cells. This was done to evaluate tubulin conformations, DNA content, and [3H]-thymidine incorporation in cell lines sensitive (HL60) and resistant (K562) to the novel anti-tubulin chemotherapeutic agent taxol. Numbers of cells with microtubule bundles have been found to correlate with sensitivity to taxol by clonogenic assay for several leukemic cell lines. We have found that cells with "asters" produced by taxol exposure are in mitosis and that cells with taxol-induced "bundles" are in G0/G1, S, and G2 phases. We further found that S-phase cells with microtubule bundles in both sensitive (HL60) and resistant (K562) cell lines were able to incorporate [3H]-thymidine after 4-hr exposure to taxol. As microtubule bundles and asters occur in cells of the same cell cycle phases in both lines, we conclude that the greater frequency of cells with microtubule bundles reported for sensitive cells after taxol treatment cannot result from drug exclusion nor from different effects of the drug on cell microtubules in these two leukemic lines.

Autoradiographic detection of [125I]-secondary antiserum: a sensitive light and electron microscopic labeling method compatible with peroxidase immunocytochemistry for dual localization of neuronal antigens.

We examined whether autoradiographic localization of [125I]-antirabbit immunoglobulin (IgG) was suitable for light and electron microscopic detection of a rabbit antiserum to the catecholamine-synthesizing enzyme, tyrosine hydroxylase (TH), and whether autoradiographic and peroxidase labeling could be combined for simultaneous immunocytochemical identification of TH and neuropeptides in brain. Adult rat brains were fixed by aortic arch perfusion with acrolein and paraformaldehyde. Vibratome sections of the fixed tissues were incubated with various dilutions of TH antiserum followed by [125I]-secondary IgG. These sections were then directly processed for autoradiography or were incubated with rabbit antiserum to substance P (SP) or methionine [Met5]-enkephalin (ME). These latter sections were then processed by the peroxidase-antiperoxidase (PAP) or conjugated peroxidase methods followed by autoradiography. Exposure periods of 12-20 days for light microscopy or 90 days for electron microscopy yielded substantial accumulations of silver grains even at the highest (1:30,000) dilution of TH antiserum. At this dilution, immunoreactivity for TH was virtually nondetectable by PAP and conjugated peroxidase methods. The differential sensitivities of the autoradiographic versus peroxidase methods provided a means for separable identification of rabbit antiserum to TH and to SP or ME. Ultrastructural analysis of the catecholaminergic neurons in the medial nuclei of the solitary tract (NTS) showed selective cytoplasmic localization of silver grains for [125I]-labeling of TH in perikarya, dendrites, and terminals. Within single thin sections prepared for dual labeling, the peroxidase marker for SP and for ME was differentially localized with respect to autoradiographic labeling of TH.