Ultrastructural changes and kinetic relationships of the secondary nucleolus and nuclear bodies in previtellogenic oocytes of the dragonfly Cordulia aenea

Localization of interchromatin granule cluster and Cajal body components in oocyte nuclear bodies of the hemipterans

An oocyte nucleus contains different extrachromosomal nuclear domains collectively called nuclear bodies (NBs). In the present work we revealed, using immunogold labeling electron microscopy, some marker components of interchromatin granule clusters (IGCs) and Cajal bodies (CBs) in morphologically heterogeneous oocyte NBs studied in three hemipteran species: Notostira elongata, Capsodes gothicus (Miridae) and Velia caprai (Veliidae). Both IGC and CB counterparts were revealed in oocyte nuclei of the studied species but morphological and biochemical criteria were found to be not sufficient to determine carefully the define type of oocyte NBs. We found that the molecular markers of the CBs (coilin and non-phosphorylated RNA polymerase II) and IGCs (SC35 protein) may be localized in the same NB. Anti-SC35 antibody may decorate not only a granular material representing "true" interchromatin granules but also masks some fibrillar parts of complex NBs. Our first observations on the hemipteran oocyte NBs confirm the high complexity and heterogeneity of insect oocyte IGCs and CBs in comparison with those in mammalian somatic cells and amphibian oocytes.

Relationship of nucleolus-associated bodies with the nucleolar organizer tracks in plant interphase nuclei (Pisum sativum)

Nucleolus-associated bodies (NABs) have long been noted in interphase nuclei of a wide variety of plant species. We have recently shown that these bodies consist largely of snRNPs and that they are located on the nucleolar surface in the immediate vicinity of the nucleolar organizer tracks. The present study revealed that, following exposure of roots to KCN, an agent that induces nucleolar segregation, NABs were intimately associated with intranucleolar chromatin. Although immunocytochemical tests with anti-DNA indicated that NABs contained no demonstrable amounts of DNA, our observations nevertheless add further support to the notion that these bodies are somehow related to the nucleolar chromosomes.

Nuclear bodies (NBs): a newly "rediscovered" organelle

Nuclear bodies (NBs) were first described in detail some 30 years ago, by conventional electron microscopy, as prominent interchromatin structures found primarily in the nuclei of malignant or hyperstimulated animal cells. Subsequent studies have shown that NBs are ubiquitous organelles, but they are numerically and morphologically quite varied. With the recent discovery of human autoantibodies against several key nuclear antigens present in some NBs, these structures are once again the subject of much attention. At least one class of NBs, coiled bodies, has been shown to be nucleolus-derived and to contain not only nucleolus-associated antigens, but also many of the snRNP components involved in pre-mRNA splicing. These data suggest that coiled bodies, and perhaps other NBs as well, are multifunctional and may be involved in the processing or transport of both pre-mRNA and pre-rRNA. Further evidence is provided showing that NBs constitute distinct nuclear domains whose functional significance is just now emerging.

Structural and functional relationships between nuclear bodies and the nucleolus-DNA body complex in the oocyte of Amphiporus lactifloreus

The localization, structure and function of two types of nuclear bodies have been investigated by cytological and cytochemical electron microscopy methods in oocytes from the Hoplonemertean, Amphiporus lactifloreus. Type I nuclear bodies differentiate in contact with the nucleolus-DNA body complex, whereas type II nuclear bodies develop close to the diplotenic chromosomal axes. The structure of type I and type II spherical nuclear bodies, 4-5 micron in width, results from the association of a fibrillar reticulum with some dense included regions. The cytochemical findings following the use of osmium-ammine reaction for DNA and silver reaction for NOR proteins support the hypothesis that type II nuclear bodies, derived from the extranucleolar area, as well as type I nuclear bodies, derived from the nucleolar complex, may be involved in ribosomal biogenesis.

Nuclear development in locust fat body: the influence of juvenile hormone on inclusion bodies and the nuclear matrix

The hormonal induction of vitellogenesis in insects and in oviparous vertebrates are prime models of gene regulation in eukaryotes. In vertebrates the process is under estrogenic control and normally confined to females, although males can be artificially induced. In locust in contrast, juvenile hormone (JH) is central to fat body development in both males and females, yet the response is strongly sex limited not only for vitellogenin production but also in terms of total protein, DNA and RNA synthesis and nuclear ploidy levels. To differentiate further possible sex and/or JH related developmental aspects in locusts, large-scale nuclear events were examined during normal adult maturation and in animals treated with antiallatropins and JH analogs. Fat body nuclei undergo extensive restructuring during normal development in both sexes. This included progressive nuclear enlargement, accompanied by extensive proliferation of nuclear matrix components and elaboration of complex inclusion bodies (NB). The isolated protein matrix was unusually complex relative to similar structures from vertebrates and the NB were firmly anchored to it. Although matrix proteins were qualitatively similar to those from other sources, as assessed by SDS polyacrylamide gel electrophoresis, several major matrix polypeptides, including lamins A and B, and components greater than 150 kD, fluctuated quantitatively during development and in concert with nuclear enlargement. The number and morphology of the NB were unrelated to sex, but increased in direct proportion to absolute nuclear volumes. All changes were more pronounced in females, where higher ploidy levels, larger nuclei and correspondingly more internal matrix elements occurred. Suppression of JH production by precocene prevented all foregoing nuclear changes, but re-exposure to methoprene rapidly induced normal development. The results are compared to analogous nuclear changes in steroid responsive vertebrate tissues.