Allometric study of the lachrymal and Harderian glands of the rat during postnatal life.

The authors performed an allometric study of the growth of the rat's lachrymal and Harderian glands, during postnatal life. From the analysis of the results, they could conclude: (1) the growth of these glands in relation to body weight, during postnatal life, could be considered similar, following the allometric law; (2) the differential growth of the glands occurred in two stages: from birth until the 15th day and from the 15th day until the final period of life studied; (3) the two stages of development were separated by a critical period, during which an abrupt modification of the allometric coefficient occurred; (4) during the first days of postnatal life, the development of the Harderian gland was characterized by a high rate of growth and, just after eyelid disjunction and during rest of postnatal life, by a rate of allometric of growth less than 1. It is interesting to observe that the lachrymal and Harderian glands' critical period of development on the 15th day of postnatal life coincides with the time at which the eyelids of the animal open.     

Mitotic activity of pial microvascular endothelium rat in postnatal ontogenesis

Mitotic activity of endothelium in pial microvessels has been studied with the aid of intra-vessel autoradiography in 4-, 12- and 30-day old rats using these parameters: number of labeled nuclei per vessel or per 100 mcm of its length, or per 1 mm2 endothelial surface area, as well as number of vessels with labeled endothelium cells. The first parameter was independent of vessel diameter. The other parameters had highest value in the pericapillary vessels in all rats. These values decrease with rat age. The highest rate of brain growth was revealed after reaching the greatest mitotic endothelium activity in pial bed.     

N-Acetyltransferase activity of the rat Harderian gland.

Harderian gland extracts from male rats catalyze the conversion of serotonin to N-acetylserotonin and of tryptamine to N-acetyltryptamine. The reaction is linear up to 14 mg tissue and departs from linearity after 10 min. The pH otpimum with tryptamine as substrate is between 8 and 9. Enzymic activity of the gland in vivo does not show diurnal variations. Enzymic activity of tissue in organ culture is not stimulated by 10 micrometer isoproterenol or 100 micrometer dibutyryl cyclic AMP. Harderian gland tissue in culture can acetylate tryptamine and serotonin and can O-methylate the N-acetylserotonin to form melatonin.     

Lectin receptors in the salivary glands of the rat during postnatal ontogenesis

Distribution of lectin-binding sites in rat submandibular and sublingual salivary glands during postnatal development has been investigated. Lectin preparations include con A, lentin lectin, castor beans agglutinin, peanut, soybean and Sophora japonica agglutinins, wheat germ agglutinin and lectin from the bark of Laburnum anagyroides. The direct and indirect peroxidase techniques are used. According to the similarities of histochemical patterns, all lectins are divided into four groups. Besides the general patterns of lectin binding sites, some details are noted. Lectins of peanut and Sophora japonica possess an extremely high affinity to mast cells, con A, lens lectin, castor beans and wheat germ agglutinins--to serous demilunes cells. Laburnum lectin--to salivary ducts epithelia in adult rat salivary glands. Lentin lectin, con A and Laburnum lectin preferentially stain cells with specific granularity in granular ducts at early stages of postnatal development. Considering the character of staining, we propose for further histochemical investigations of the salivary glands lentin lectin, peanut agglutinin, wheat germ agglutinin and Laburum anagyroides lectin.     

Mitotic activity of rat bone marrow cells during injury

The mitotic regimen analysis in rat bone marrow cells was conducted 1, 3, 7, 14, 21 and 35 days after shock trauma. A sharp impairment of myelocyte reproductive function was registered against an increase in the mitotic index. It confirms a universal character of normal mitosis impairment in strong stresses, which was earlier established for epithelial tissues. Cell division disturbances in the bone marrow may be considered an pathogenic factor of a number of pathological processes occurring in the blood system in traumatic disease (anemia, immunodepression). A complex of drugs (sodium oxybutyrate, sodium oxiferriscarbon, Laevamizolum) is offered for the correction of proliferative processes in the bone marrow. This complex has no significant influence on mitotic index and causes relative reduction of pathological mitosis level, ensuring its earlier normalization.     

Histological and histochemical study of rat salivary glands during their postnatal development

The postnatal development of the three major salivary glands (parotid, submaxillary and sublingual) was comparatively followed up from the histological viewpoint and in relation with some histochemical reactions. The sublingual gland presented a well developed cytomorphological structure at birth, whereas the parotid and the submaxillary one, immature at birth, gradually reached the overall appearance of adult glands, the former at 5 - 6 weeks, the latter at 8 weeks. In relation with the product secreted, it is already from birth that the parotid and the submaxillary glands presented negative reactions for mucosubstances and positive ones for revealing the protein-bound groups. The sublingual gland exhibited from the first postnatal 24 hrs positive reactions for revealing mucosubstances at the level of glandular secretory glands.     

Mitotic index and cell nuclear volume of zona fasciculata externa in processes of postnatal growth of rat adrenals

Mitotic index and nuclear volume of the zona fasciculata externa have been studied using male and female Wistar rats weighing 20, 50, 100, 250 and 300 g. Adrenal weight of females was greater than of males. Early postnatal growth of adrenals was attained at the expense of intensity of mitotic division. With age mitotic division decreased but cell hypertrophy developed. Cell hypertrophy in females began at an early age and was more marked than in males.     

Mitotic polyploidization of mouse heart myocytes during the first postnatal week

Summary Polyploidization of myocytes in the cardiac ventricle of mice occurs predominantly during the first week of the postnatal life. Using isolated cells it was shown that about 70 % of the cardiomyocytes become binuclear at this time (2c×2), while 10 % are mononuclear but contain 4c of DNA, where c was the haploid level of DNA. About 2 % of the cell population were represented by 4c×2 or 8c cells.Cytophotometry of Feulgen-stained DNA in ¹⁴C-thymidine-labeled nuclei has shown that the cells that enter the mitotic cycle are mainly diploid. After mitosis (30 h or more after thymidine application) the label was found predominantly in 2c×2 and 4c cell types. Comparison of the curves presenting dynamics of labeled mitoses and the accumulation of labeled binuclear cells reveals that binuclear 2c×2 cells are formed by acytokinetic mitosis. The formation of 4c mononuclear cells is accomplished via other types of mitotic arrest; this may be due, for example, to a block in the pro-or metaphase.Only very rare cases of cytotomy were detected and the number of newly formed 2c cells was very low. It is concluded that cell multiplication is practically arrested at this period of life, and growth of the ventricular mass is due to polyploidization of virtually all cycling cells, while their number remains unchanged. Mechanisms and functional significance of cardiomyocyte polyploidization are discussed.     

Replenishment and nuclear retention of oestradiol-17 beta receptors in rat uteri during postnatal development.

1. Uteri of 6--10-day-old rats do not show a late growth response to oestrogen (increase in rate of DNA synthesis and cell division) exhibited by fully competent (20 days or older) uteri. We posed the question whether the lack of the late growth response is due to an inability to replenish the cytoplasmic pool of oestrogen receptors or to curtailed retention of oestrogen binding in the nucleus. Uterine nuclear and cytoplasmic receptors were measured by a [3H]oestradiol-17 beta exchange assay, at 1, 3, 6, 14 and 24 h after oestrogen injection. 2. The replenishment of cytoplasmic oestrogen receptors showed a similar pattern in the uteri of 6 and 10-day-old (partially responsive) and in 20-day-old (fully responsive) rats. 3. Oestrogen was retained longer in uterine nuclei obtained from 5 and 10-day-old rats than in uterine nuclei of 20 and 25-day-old rats. 4. Oestrogen receptors resistant to 0.4 M KCl extraction (residual receptors) were found in uterine nuclei of 6 and 25-day-old rats after oestrogen injection at all the times tested. The concentration of these residual receptors during the late period (6--24 h after injection) was not significantly different in uterine nuclei of 6-day-old and 25-day-old rats. 5. We conclude that neither lack of oestrogen receptor replenishment nor curtailed retention of oestrogen binding in the nucleus is the factor which limits the complete responsiveness to oestrogen in uteri of rats during postnatal development.