A quantitative histological study of strain-dependent differences in the effects of irradiation on mouse lung during the intermediate and late phases

Strain differences in the intermediate and late phases of the radiation response of mouse lung were investigated histologically. The proportion of lung impairment in mice at 28 and 52 weeks postirradiation and in mice dying of respiratory insufficiency was assessed by scoring lung acini as nonfunctional due to lesions which obstructed airflow, or open and presumably functional. The nine strains tested were divided into three groups on the basis of the late fibrotic response. Group 1 mice, three C57 strains, developed extensive contracted fibrosis and usually showed enough damage to explain late deaths. Group 2, SWR, A, and BALB/c strains, developed foci of contracted fibrosis. Group 3, CBA and two C3H strains, did not form fibrotic scars. Mice in Groups 2 and 3 that died with no pleural effusions appeared to have insufficient late lung damage to account for respiratory distress. Problems with pulmonary blood flow were indicated by evidence of loss of fine vasculature and right ventricular hypertrophy. In nondistressed, late-stage mice in Groups 2 and 3, loss of capillary perfusion in lung parenchyma free of obvious lesions was demonstrated by infusion of colloidal carbon. In one strain, A, an estimate of the proportion of nonperfused lung was made on distressed late-stage mice. Almost 50% of lung acini were nonfunctional as a result of nonperfusion, and an additional 9% of acini were nonfunctional due to lesions obstructing ventilation. It is suggested that nonperfusion of apparently normal lung acini is a major factor in late-phase deaths in those mouse strains which show little or no fibrosis.     

The genetic basis of strain-dependent differences in the early phase of radiation injury in mouse lung.

Substantial differences between mouse strains have been reported in the lesions present in the lung during the early phase of radiation injury. Some strains show only classical pneumonitis, while other strains develop substantial fibrosis and hyaline membranes which contribute appreciably to respiratory insufficiency, in addition to pneumonitis. Other strains are intermediate between these extremes. These differences correlate with intrinsic differences in activities of lung plasminogen activator and angiotensin converting enzyme. The genetic basis of these differences was assessed by examining histologically the early reaction in lungs of seven murine hybrids available commercially after whole-thorax irradiation. Crosses between fibrosing and nonfibrosing parents were uniformly nonfibrosing, and crosses between fibrosing and intermediate parents were uniformly intermediate. No evidence of sex linkage was seen. Thus the phenotype in which fibrosis is found is controlled by autosomal recessive determinants. Strains prone to radiation-induced pulmonary fibrosis and hyaline membranes exhibited intrinsically lower activities of lung plasminogen activator and angiotensin converting enzyme than either the nonfibrosing strains or the nonfibrosing hybrid crosses. The median time of death of the hybrids was genetically determined primarily by the longest-lived parent regardless of the types of lesions expressed.     

A quantitative histological study of adrenal development during the perinatal period in intact and hypophysectomized pigs

Adrenal growth was studied between D70 of gestation (D0: day of mating) and D6 after birth in 33 fetuses and 11 new-born pigs of the Large White breed. Volume, height and mean surface, were estimated by zone, as well as cell number, cell size and nucleocytoplasmic ratio. The volume increased exponentially. In the cortex it was 4.0 mm3, 7.2 mm3, 10.5 mm3, 33.6 mm3, 55.3 mm3 at D70, D94, D106, D113 and D1-D6, respectively, after birth. In the medulla, the volume was 4.0 mm3, 6.3 mm3, 6.9 mm3, 9.6 mm3 and 20.6 mm3 at the same stages. This evolution was due to predominant longitudinal stretching between D94 and D106, then thickening, as shown by the relative variations of the height and the surface. The growth of the cortex corresponded to hyperplasia associated with hypertrophy after D110. In the medulla, hyperplasia predominated until D110; this was followed by hypertrophic phase. Twelve fetuses hypophysectomized at D44 or at D55 were recovered at D94, D106 and D112 at least 50 days after surgery. Hypophysectomy did not affect medullar development (volume and number of cells) but inhibited very significantly the growth of the cortical zone, particularly that of the fasciculata.     

A quantitative study of some lysosomal enzymes in the bovine endometrium during early pregnancy.

Endometrium was obtained from cattle slaughtered at various stages of early pregnancy and of the oestrous cycle. Analyses for protein, RNA, DNA, glucose and some lysosomal enzymes were carried out on this tissue. The results are considered with respect to the general influence of the hormonal status of pregnancy and the specific influence of the hormonal status of pregnancy and the specific influence of the blastocyst in one uterine horn.     

A quantitative study of epithelial alterations during the early stages of experimental colonic tumorigenesis in mice

The weekly administration of 1,2-dimethyl-hydrazine (DMH) by subcutaneous injection for a period of 16-20 weeks is a well known procedure for producing colonic tumors in mice and rats. Quantitative histomorphological, histochemical and kinetic studies, as well as investigation of the significance of epithelial cell density were carried out in mice between the 7th and the 91st day after the first DMH injection. These studies showed that between the 28th and the 35th day, several simultaneous alterations in the colonic epithelium involving modification of glandular form, decreased mucus secretion, an increase in epithelial cell density and an increase in the number of S phase cells (BrdU labeling index: LI). Around the 35th day, the glands tended to expand and from the 35th to the 63rd day, they were stretched and displayed compartments of dedifferentiated and non-mucinous crypts (DNMC). In these crypts the cell density became very high, reaching twice the control value on the 91st day. This feature was accompanied by alteration in cell morphology and by an increase in the available basement membrane area. A decrease in mucus secretion was apparent from the 14th day and by the 63rd day, mucus secretion was only about 60% of the control value in all crypts. The LI was increased until the 35th day following which a paradoxical and progressive decrease occurred in all glandular compartments.     

A trial of histological preparation of early mouse embryos with the Technovit 7100 system

A reproducible procedure was devised for making histological preparations of early mouse embryos cultured in vitro. This method was characterized by use of a resinous embedding material, Technovit 7100, and a 96-well U-bottomed microplate, which enabled efficient rinsing and dehydration of fixed embryos without loss. Technovit 7100 polymerized or hardened at room temperature slowly enough to allow sedimentation of embryos to the bottom, which enabled more correct prediction of the place of the embryos at sectioning. The present method will lead to easier microscopic observation of early embryos in embryology.     

A quantitative histological study of Golgi II neurons and pale cells in different cerebellar regions of the adult and ageing mouse brain

Two types of medium to large sized neurons are present in the granular layer of the mouse cerebellum. One type has a large nucleus with a prominent nucleolus and a moderate amount of cytoplasm containing Nissl substance. This type corresponds to the classical Golgi II neuron. The second type has a much smaller nucleus (mean diameter 8.4 microns) with a darkly staining nuclear envelope which is almost invariably deeply indented by cytoplasmic intrusions. The nucleolus is smaller and less conspicuous than in Golgi II neurons. These neurons are identical to the pale cells described by Altman and Bayer (1977). The numbers of both types of neuron were estimated in the spinocerebellum, lobus simplex and nodulus in mice aged 6, 15, 22, 25, 28 and 31 months. There was no significant variation in the number of either Golgi II neurons or pale cells with age in any part of the cerebellum. The number of Golgi II neurons per mm3 was similar in all parts of the cerebellum (mean 3560 mm3). This was identical to the mean number of pale cells per mm3 in the spinocerebellum and pontocerebellum but in the nodulus pale cells were much more numerous (mean 41,170 per mm3). It is postulated that pale cells are small Golgi II neurons.     

A quantitative histological study of adrenal development during late gestation and the perinatal period in intact and hypophysectomized fetal sheep

Growth of the sheep adrenal was studied during late gestation and the perinatal period. Adrenals were recovered from 28 fetuses taken at D100 (D0: day of mating), D120, D132 and D144, and in 4 newborn animals 3 days after birth (equivalent to D151). Animals were of the Ile de France breed. Cortex (without capsule) and medulla volumes increased respectively by 7.2 and 2.4 between D100 and D151. The 2 parts had the same volume between D100 and D120; thereafter the cortex became predominant, representing 74% of the whole gland at D151. Hypertrophy and hyperplasia were shown after D132 in the cortex (zona fasciculata); they were observed later after D144 in the medulla (central zone). Fifteen fetuses hypophysectomized at D100 or D120 were recovered at D120 or D144. The lack of pituitary inhibited cortical growth (zona fasciculata) and suppressed hypertrophy and hyperplasia. The medulla continued to grow after hypophysectomy but to a lesser extent than in controls.     

Quantitative PCR assays for mouse enteric flora reveal strain-dependent differences in composition that are influenced by the microenvironment

The mammalian gastrointestinal (GI) tract is inhabited by over a hundred species of symbiotic bacteria. Differences among individuals in the composition of the GI flora may contribute to variation in in vivo experimental analyses and disease susceptibility. To investigate potential interindividual differences in GI flora composition, we developed real-time quantitative PCR-based assays for the detection of the eight members of the Altered Schaedler Flora (ASF) as representative members of different bacterial niches within the mammalian GI tract. Quantitative and reproducible strain-specific variations in the numbers of the ASF members were observed across 23 different barrier-housed inbred mouse strains, suggesting that the ASF assays can be used as sentinels for changes in GI flora composition. A significant cage effect was also detected. Isogenic mice that cohabited at weaning, whether from the same or different litters, showed little variation in ASF profiles. Conversely, litters split among different cages at weaning showed divergence in ASF profiles after three weeks. Individual ASF profiles, once established, were highly stable over time in the absence of environmental perturbation. Furthermore, cohabitation of different inbred strains maintained most of the interstrain variation in the GI flora, supporting a role of host genetics in determining GI flora composition.     

A quantitative analysis of mitochondria during fetal mouse oogenesis

A quantitative analysis of mitochondrial populations during the meiotic prophase of mouse oogenesis was carried out. The mean absolute area occupied by mitochondria and the mean number of mitochondria per cell increases in a linear fashion from pachytene through dictyate. The mean area occupied by mitochondria increases at pachytene and thereafter. Both small and large aggregations of mitochondria are seen, particularly during the later stages of prophase. Vacuolated mitochondria are present from preleptotene through pachytene. Mitochondria show major dynamic changes throughout fetal mouse oogenesis, which may suggest significant functional activities yet to be elucidated.