A radioautographic study on RNA synthesis in aging mouse spleen after 3H-uridine labeling in vitro.

EM radioautographic study on RNA synthesis in aging mouse spleen was conducted after 3H-uridine labeling in vitro. The localization of radiolabelled precursor was used to determine the site of RNA synthesis. The site of the radiolabelled uridine uptake was localized in the haematopoietic cells, particularly in the lymphoblasts. In the labelled cells, most of the silver grains were localized in the nucleus, specifically in the euchromatin. Few cytoplasmic organelles such as the mitochondria and endoplasmic reticulum were labelled with 3H-uridine. Silver grains were also observed over the nucleoli. The labeling index was expressed as the percentage of labelled cells over the total number of cells counted. The labeling index increased from day one after birth and progressively until the 14th day. Thereafter, the labeling index decreased gradually until the 10th month. A significant difference of p less than 0.05 was noted. In all the EMRAG analyzed, it was observed that the number of silver grains per cell increased proportionally with the labeling index. The result of the quantitation of the changes in RNA synthesis correlated well with the maturational development/aging of the animal.

Simultaneous localization of 3H-thymidine incorporation and acid phosphatase activity in mouse spleen: EM radioautography and cytochemistry.

Simultaneous localization of 3H-thymidine incorporation and acid phosphatase (AcP) activity was undertaken by combined radioautography and cytochemistry in the spleen of mice at different ages. The localization of radiolabelled thymidine was used to determine the site of DNA synthesis (cell proliferation), while AcP activity as a marker for cell lysis/death. For EM radioautography (EMRAG), the tissue sections were incubated in a medium containing 3H-thymidine and processed for radioautography, while the lanthanide-based method for the ultrastructural localization of AcP activity was employed. Quantitation of AcP activity was carried out by X-ray microanalysis. In all tissue sections examined, mostly of the labelled nuclei were observed in the hematopoietic cells. Few mitochondria of these cells were labelled. The labeling index was expressed as the percentage of labelled cells over the total number of counted cells. The labeling indices dropped considerably from day one after birth and progressively until the 10th month. The result of AcP activity correlated well with the result of a previous work (Olea, 1991). The localization of radiolabelled thymidine and AcP activity were not hindered by the simultaneous exposure of the same tissue section to 3H-thymidine and AcP cytochemical media. Interestingly enough, the spleen actively participates both in hematopoiesis and erythrophagocytosis. Prominently, it is most active during the early postnatal life. However, their influence declined considerably at the later stage of life (adult stage).

Quantitative assessment of lysosomal size, number and enzyme activity in mouse kidney during maturational development.

Image and cytochemical analyses were undertaken to determine possible correlation between the number and size of acid phosphatase-positive granules (lysosomes), and variation in acid phosphatase (AcP) activity in the proximal tubule cells of mouse-kidney during growth and development. Eighteen ddY strain mice ages: 1 day, 1 and 2 weeks, and 1, 2 and 10 months were used. The lanthanide-based method for the ultrastructural localization of AcP-activity was employed. The number and size of AcP positive granules were quantitatively analyzed by image analysis, and AcP activity by X-ray microanalysis. Significance was evaluated by 2-tailed-Student's t-test for the difference between means. AcP activity was observed in the lysosomes and the reaction product appeared dense and heterogeneous. In some cells, it appeared apparently homogeneous. The results showed that the number and size of AcP Positive granules (lysosomes) increased significantly from the first day after birth, recorded a peak in one week time and thereafter, it gradually declined until the 10th month. The result of X-ray microanalysis demonstrated a variation in accordance with the degree of AcP activity at different ages of the animals studied. The AcP activity decreased significantly from day one and progressively until the 10th month. From the results of the present work, it could be inferred that the changes in size and number of AcP positive granules, at least, at the early stage, and/or the variation in AcP activity are related to the growth and development of the animal.

X-ray microanalysis of cerium in mouse spleen cells demonstrating acid phosphatase activity using high voltage electron microscope.

An X-ray microanalytical study was carried out on mouse spleen cells demonstrating acid phosphatase (AcP-A) activity, using cerium (Ce) as the capture agent at different accelerating voltages. The enzyme reaction products were localized in the lysosomes and appeared dense and homogeneous. The presence of cerium was confirmed by X-ray microanalysis. The main spectral line of cerium was present at La = 4.84 keV. The result showed that the X-ray count of Ce and the background (B) decreased significantly with increasing accelerating voltage between 100 and 400 kV. The change was more pronounced between 100 and 200 kV and thereafter, minimal change was noted. Consequently, the computed P/B ratio increased appreciably with increasing accelerating voltage. Thus, significant P/B ratio in X-ray microanalysis of biological specimens could be achieved by using a medium voltage transmission analytical electron microscope at accelerating voltage between 300 and 400 kV.

Protein synthesis in the livers of aging mice studied by electron microscopic radioautography.

The application of 3H-leucine results in labeling of the liver cells of mice in which protein is synthesized at various ages of the animals. Quantitative changes of protein synthesis in the hepatocytes of aging mice were studied by electron microscopic radioautography. The silver grains in the hepatocytes were mainly located over the rough surfaced endoplasmic reticulum, mitochondria, Golgi apparatus, cytoplasmic matrix, and a few over the nuclei. The number of silver grains in the cytoplasm and nuclei of the hepatocytes gradually increased after birth, reached the maximum at 1 month after birth, thereafter it continued to decrease with aging until the 24th month. The number of silver grains in the hepatocyte cytoplasm was more than that in nuclei at various ages. The number of silver grains in the rough surfaced endoplasmic reticulum and mitochondria gradually increased from embryo to 1 month after birth, thereafter it continued to decrease with aging until the 24th month. The number of silver grains in the Golgi apparatus showed almost no change from fetal stage to 6 months after birth, thereafter it continued to decrease with aging until the 24th month. The number of silver grains in the cytoplasmic matrix gradually increased from fetal stage to 2 months after birth, then decreased with aging until the 24th month. These changes reflect the quantity of protein synthesized in each cell organelle at various ages of animals.