Relationship between ultrastructure and function of hepatocyte chromatin: a study with adrenalectomized rats after cortisol administration

Chromatin structure in situ: the contribution of DNA ultrastructural cytochemistry

Ultrastructural studies conducted in situ using conventional transmission electron microscopy have had relatively little impact on defining the structural organization of chromatin. This is due to the fact that in routine transmission electron microscopy, together with the deoxyribonucleoprotein, many different intermingled substances are contrasted, masking the ultrastructure of chromatin. By selective staining of DNA in thin sections, using the Feulgen-like osmium-ammine reaction, these drawbacks have been overcome and worthwhile data have been obtained both on the gross morphology and the ultrastructural-functional organization of chromatin in situ. In the present study these results are reviewed and discussed in light of recent achievements in both interphase nuclear chromatin compartmentalization in interphase nuclei and in the structural organization of chromatin fibers in transcriptionally active and inactive chromatin.

Electron microscopy of oligodendroglia in severe mental illness

Qualitative electron microscopy was performed to verify whether brain pathology in schizophrenia and bipolar disorder is associated with alterations of oligodendroglial cells and myelinated fibers. Ultrastructural signs of apoptosis and necrosis of oligodendroglial cells were found in the prefrontal area 10 and the caudate nucleus in both schizophrenia and bipolar disorder. Damage of myelin sheath lamellae, with the formation of concentric lamellar bodies, were detected in both brain structures in schizophrenia. There was also a significant decrease in the area of the nucleus and the volume density of mitochondria in oligodendrogliocytes in the caudate nucleus and in the prefrontal cortex in schizophrenia, as compared to normal controls. Volume density of heterochromatin was significantly increased (+14%) in the caudate nucleus in schizophrenia. The density of concentric lamellar bodies (as an indicator of damage of myelinated fibers) was dramatically increased (4.5-fold) in the caudate nucleus in schizophrenia, as compared to controls, and was positively correlated with volume density of heterochromatin. Multiple regression analysis and analysis of covariance demonstrated that these changes could not be explained by the effects of postmortem delay, age, neuroleptic medication, or gender. Pathology of oligodendroglia might be an essential feature of severe mental disorders.

Nuclear remodeling in response to steroid hormone action

Steroid and similar hormones comprise the broadest class of gene regulatory agents known, spanning vertebrates through the lower animals, and even fungi. Not unexpectedly, therefore, steroid receptors belong to an evolutionarily highly conserved family of proteins. After complexing with their cognate ligands, receptors interact with hormone response elements on target genes and modulate transcription. These actions are multifaceted and only partly understood, and include large-scale changes in the structure and molecular composition of the affected cell nuclei. This chapter examines steroid hormone action and the resultant nuclear remodeling from the following perspectives: (1) Where are the receptors located? (2) Which nuclear domains are most affected? (3) Are there extended or permanent nuclear changes? (4) What is the role of coiled bodies and similar structures in this regard? To address these and related questions, information is drawn from several sources, including vertebrates, insects, and malignant tissues. Entirely new data are presented as well as a review of the literature.

Ultrastructural organization of nucleoli in benign naevi and malignant melanomas

We have studied the ultrastructural organization of nucleoli in benign naevi and malignant melanomas. In benign naevus cells the nucleoli displayed a compact ribonucleoprotein distribution, with one or two large fibrillar centres. In malignant melanoma cells the nucleoli were large with an irregular, nucleolonema-like ribonucleoprotein distribution and they exhibited numerous, small fibrillar centres. Statistical evaluation of the size of fibrillar centres indicated a mean value of 0.482 micron 2 +/- 0.136 SD for naevi and 0.221 micron 2 +/- 0.128 SD for malignant melanomas. These features, together with the more dispersed chromatin pattern of malignant melanoma nuclei compared with those of benign naevus cells, are proposed as diagnostic parameters which differentiate benign naevi from malignant melanomas at the ultrastructural level.

Visualization of chromatin distribution in living PTO cells by Hoechst 33342 fluorescent staining

Chromatin distribution was visualized in living cells with the selective DNA fluorochrome Hoechst 33342. This dye was shown to be non-toxic on the rat kangaroo PTO cell line by measuring the labelled cell growth rate. The aim of this work was firstly to visualize chromatin distribution without fixation or dehydration and secondly to demonstrate that quantitative determination of DNA content was possible under these non-toxic labelling conditions. During interphase, condensed, decondensed and thin network chromatin configurations were visualized. In nucleolar regions the fluorochrome revealed well-defined chromocentres. During mitosis, fluorescent chromosome banding was observed in vital conditions and chromocentres on fixed chromosomes. Chromatin segregation was visualized after micronucleation, which induced chromosomal set distribution in individual micronuclei. By this means, we demonstrated that the chromocentres observed in interphase nuclei were part of nuclear organizer region (NOR)-bearing chromosomes. This vital staining of chromatin was shown to be compatible with the quantitative determination of DNA content, both in living PTO cells and in isolated nuclei.

Changes in structure and composition of lymphocyte nuclei during mitogenic stimulation

Nuclei of lymphocytes stimulated in vitro with concanavalin A (Con A) were classified into three morphotypes: I--unstimulated; II--partially stimulated; III--fully stimulated, lymphoblastic nuclei. During the Con A-induced change from morphotype I to III nuclear volume increased up to sixfold, due to a near 10-fold increase in the interchromatinic region. At the same time, condensed chromatin rose in volume by only about 1.5-fold and became disaggregated in to small clumps. Regressive EDTA-uranyl staining demonstrated a large increase in interchromatinic fibrillar material in morphotypes II and III. Nuclear matrices isolated from stimulated murine lymphocytes showed structures comparable to the interchromatinic region of the morphotypes. The Con A-stimulated change in nuclear structure preceded onset of DNA replication and was unaffected by hydroxyurea or cytosine arabinoside. Cycloheximide blocked the structural change, even when given 20 hr after Con A. Autoradiography after [3H]leucine showed incorporation of label in the interchromatinic region of morphotype II and III nuclei, much of which remained stable during a 48-hr chase period. Nuclear structural activation was inhibited by alpha-amanitin but a significant stable nuclear RNA fraction was not detected. We conclude that an important event in lymphocyte activation is extensive synthesis of stable proteinaceous interchromatinic matrix which may be involved in chromatin remodeling and DNA replication and/or transcription.

Chromatin condensation in isolated rat hepatocyte nuclei induced by ribonuclease treatment

Ribonuclease treatment of isolated rat hepatocyte nuclei induced a 75% solubilization in hnRNA, a reduction of the quantity of perichromatin fibrils, and a marked condensation of chromatin.