Effects of chlorcyclizine-induced glycosaminoglycan alterations on patterns of hyaluronate distribution during morphogenesis of the mouse secondary palate

Chlorcyclizine (CHLR) enhances the degradation of hyaluronate (HA) into smaller molecular weight pieces with no effect on its synthesis. Administration of CHLR to pregnant CD-1 mice on gestational days 10.5, 11.5 and 12.5 results in 100% cleft palate in the fetuses. The caudal two thirds of the palatal shelves are reduced in size and unable to reorient in vitro, while anterior shelf regions are relatively unaffected. Alcian blue staining combined with specific enzymic digestion was used to identify HA in sections of CHLR-treated shelves. With the aid of computer-assisted image subtraction the patterns of HA distribution across the tissue section were objectively identified. Anterior, posterior and presumptive soft palatal shelf regions were examined at gestational days 13.25, 13.5, 13.75 and 14.5. Acquisition of a normal pattern of HA distribution was delayed by about 24 h, as compared to untreated specimens in all three shelf regions. The posterior and soft regions, comprising the caudal two thirds of the shelf, also showed pronounced shape change. These regions only displayed normal curvature of the nasal surface when a normal pattern of HA distribution was attained. These results suggest that, for the caudal two thirds of the palatal shelf, normal shape and the ability to remodel are linked to the molecular configuration of HA and to a specific pattern of HA distribution.     

Changes in mesenchymal cell-basal lamina relationships preceding palatal shelf reorientation in the mouse

Two specific regions of the future nasal and oral epithelial surfaces of the secondary palatal shelves increase in cell density during shelf reorientation. The relationships of mesenchymal cells to the basal lamina underlying these regions were examined and compared to those of cells underlying adjacent regions which did not change in cell density. CD-1 mouse fetuses were obtained on day 13.5 of gestation. Some palatal shelves were excised immediately and fixed for electron microscopy; other heads were partially dissected and incubated for 4 hr prior to fixation. Although shelf movement is detected only after 6 hr incubation, the shorter time period was selected in order to detect events which precede reorientation. Electron micrographs were taken of the epithelial-mesenchymal interface of nasal and oral regions known to increase in epithelial cell density (active segments) and of nasal and oral regions which did not increase (inactive segments). Several measurements were made in a 500-nm-wide zone delimited on photographic prints. Distinct differences in mesenchymal cell configuration were found between nasal and oral regions. Active and inactive segments of each region also differed. A filamentous layer attached to the undersurface of the lamina densa was observed to vary in thickness and character between regions as well. After 4 hr incubation, differences in mesenchymal cell configuration and ultrastructure of the sublaminar zone were apparent between regions. These results suggest that local epithelial-mesenchymal interactions, possibly mediated by the extracellular matrix, precede shelf reorientation. Whether these changes in mesenchymal cell configuration actually reflect mesenchymal cell activities that are necessary for shelf reorientation remains to be elucidated.     

The ultrastructural effects of prednisolone on the mesenchyme of the palatal shelf in the mouse

The effect of methylprednisolone on the structure of the mesenchymal component of the palatal shelves of fetal mice was studied at the time of shelf reorientation. Pregnant mice received intraperitoneal injections of 8 mg of prednisolone on days 11.5, 12.5, and 13.5 of pregnancy. The mice were killed on day 14.5, and the specimens were either stained with periodic acid-Schiff (PAS) reagent for examination in the light microscope or processed for examination in the electron microscope. It was found that prednisolone treatment resulted in a reduction in the amount of tannic-acid-staining material in the extracellular spaces. It also resulted in a reduction in the collagen within the shelf. The development of skeletal and smooth muscle cells, neurons, and satellite cells was also delayed and the occurrence within the shelves of cells with a high glycogen content was reduced.     

Retinoic acid-induced alterations in the expression of growth factors in embryonic mouse palatal shelves

Retinoic acid (RA) is teratogenic in many species, producing multiple malformations, including cleft palate. The effects of RA which lead to cleft palate vary depending on the stage of development exposed. After exposure of embryonic mice to RA on gestation day (GD) 10, abnormally small palatal shelves form. After exposure on GD 12 shelves of normal size form, but fail to fuse, as the medial cells proliferate and differentiate into a nasal-like epithelium. Growth factors and their receptors play an important role in regulating development, and the expression of EGF receptors, EGF, TGF-alpha, TFG-beta 1, and TGF-beta 2 has been reported in the mouse embryo. In a variety of cell types in culture, these growth factors are capable of regulating proliferation, differentiation, expression of matrix proteins, and other cellular events including epithelial-mesenchymal transformations. The present study examines immunohistochemically the expression of EGF, TGF-alpha, TGF-beta 1, and TGF-beta 2 in the control embryonic palatal shelves from GD 12 to 15 and the effects of RA treatment on GD 10 or 12 on their expression on GD 14 and 16. These growth factors were shown to have specific temporal and spatial expression in the palatal shelf. With advancing development the levels of TGF-alpha decreased while the expression of EGF increased. TGF-beta 2 localization became regional by GD 14-15, with higher levels found in epithelial cells and chondrogenic mesenchyme. TGF-beta 1 occurred in epithelial and mesenchymal cells and distribution did not change substantially with advancing development. RA exposure altered the expression of TFG-alpha, TGF-beta 1, and TGF-beta 2, but significant effects on EGF were not found. The effects on TGF-alpha and TGF-beta 1 expression were dependent on the gestational age exposed. Levels of TGF-alpha on GD 14 decreased after RA exposure on GD 10, but increased after GD 12 exposure. TGF-beta 1 expression in the mesenchyme was increased after exposure on GD 12, but was unaffected by RA on GD 10. After exposure on either day, the levels of TGF-beta 2 increased in GD 14 nasal epithelial cells. Acting in concert, growth factors could regulate events critical to formation of the secondary palate, including cessation of medial epithelial cell proliferation, synthesis of extracellular matrix proteins in the mesenchyme, programmed cell death of medial epithelial peridermal cells, and transformation of basal epithelial medial cells to mesenchymal cells.(ABSTRACT TRUNCATED AT 400 WORDS)     

The turnover of basal lamina glycosaminoglycan correlates with epithelial morphogenesis

The mouse embryonic submandibular epithelium begins as a single bud from the floor of the mouth which, under the influence of its surrounding mesenchyme, grows and forms lobules that subsequently branch repetitively. The lobular morphology of the 13-day epithelium is maintained by its basal lamina which is a continuous layer on the interlobular clefts but is interrupted on the distal aspects of the lobules. The structural integrity of this lamina is dependent upon its glycosaminoglycan (GAG) which, by histochemistry, is more abundant on the interlobular clefts than on the distal lobules. We have investigated the basis for these regional differences in the lamina by examining the synthesis and degradation of total GAG as well as the accumulation and loss of laminar GAG during the morphogenesis of the 13-day gland. Autoradiography and histochemistry show that laminar GAG is rapidly turning over. Although it is relatively stable in the interlobular clefts, GAG is rapidly degraded on the distal lobules. This difference can account for the regional variation in basal laminar GAG accumulation. The results of incorporation kinetics and precursor pool specific activities of total epithelial GAG show that the rate of GAG synthesis is greater than its rate of degradation in the base of the lobules, which includes the interlobular clefts. In contrast, during morphogenesis, the rate of GAG degradation becomes greater than its rate of replacement in the distal lobules. The epithelial stalk appears to be in the steady state regarding GAG metabolism. We propose (a) that the rapid laminar GAG degradation on the distal lobules produces the interruptions in the lamina, allowing epithelial growth and expansion, and (b) that the metabolic stability of laminar GAG on the interlobular clefts maintains the integrity of this lamina which serves as a cellular constraint. The results are consistent with a model for epithelial morphogenesis in which the mesenchyme remodels the lamina, which in turn, dictates epithelial morphology. Regulation of basal lamina turnover may be a general mechanism for controlling the behavior of epithelial cell populations.     

Effect of retinoic acid on in vitro proliferation activity and glycosaminoglycan synthesis of mesenchymal cells from palatal shelves of mouse fetuses

To clarify the mechanism by which retinoid causes cleft palate, we investigated the effect of retinoic acid (RA) on proliferation activity and glycosaminoglycan (GAG) synthesis in mouse fetuses palatal mesenchymal (MFPM) cells. MFPM cells were incubated for 1-11 days with various concentrations of RA to examine its effect on growth rate. Also, confluent cultures were incubated with [3H]glucosamine or [35S]sulfate in the presence of various concentrations of RA to investigate the effect of RA on GAG synthesis. RA remarkably inhibited the growth of MFPM cells in a dose-dependent manner. RA also inhibited the synthesis of GAGs, with sulfated GAGs being more severely affected than hyaluronic acid. These data suggest that the inhibition of proliferation activity and GAG synthesis of palatal mesenchymal cells might be involved in the induction of cleft palate by retinoic acid.     

Development and growth of palatal rugae in the mouse

Palatal rugae began to develop in the mouse, before the elevation of the palatal shelves, as localized regions of epithelial proliferation and thickening. Subsequently, fibroblasts and collagen fibres accumulated in the connective tissue subjacent to the thickened epithelium and later assumed a distinctive orientation, the fibres running anteroposteriorly within the core and in concentric curves across the base of each ruga. The role of collagen in rugal morphogenesis was examined after inhibiting its formation by feeding the lathyritic agent beta-aminopropionitrile to pregnant females. This substance markedly affected the eventual height of the rugae at birth, confirming the importance of collagen in rugal development.     

Basal lamina structural alterations in human asymmetric aneurismatic aorta

Basal lamina (BL) is a crucial mechanical and functional component of blood vessels, constituting a sensor of extracellular microenvironment for endothelial cells and pericytes. Recently, an abnormality in the process of matrix microfibrillar component remodeling has been advocated as a mechanism involved in the development of aortic dilation. We focused our attention on BL composition and organization and studied some of the main components of the Extracellular Matrix such as Tenascin, Laminins, Fibronectin, type I, III and IV Collagens. We used surgical fragments from 27 patients, submitted to operation because of aortic root aneurysm and 5 normal aortic wall specimens from heart donors without any evidence for aneurysmal or atherosclerotic diseases of the aorta. Two samples of aortic wall were harvested from each patient, proximal to the sinotubular junction at the aortic convexity and concavity. Each specimen was processed both for immunohistochemical examination and molecular biology study. We compared the convexity of each aortic sample with the concavity of the same vessel, and both of them with the control samples. The synthesis of mRNA and the levels of each protein were assessed, respectively, by RT-PCR and Western Blot analysis. Immunohistochemistry elucidated the organization of BL, whose composition was revealed by molecular biology. All pathological samples showed a wall thinner than normal ones. Basal lamina of the aortic wall evidentiated important changes in the tridimensional arrangement of its major components which lost their regular arrangement in pathological specimens. Collagen I, Laminin alpha2 chain and Fibronectin amounts decreased in pathological samples, while type IV Collagen and Tenascin synthesis increased. Consistently with the common macroscopic observation that ascending aorta dilations tend to expand asymmetrically, with prevalent involvement of the vessel convexity and relative sparing of the concavity, Collagen type IV is more evident in the concavity and Tenascin in the convexity.     

The effects of caretaker-primate relationships on primates in the laboratory

As contact with caretakers is likely to make up the majority of human-primate interactions in laboratories, caretakers represent an important influence in the lives of captive primates. The aim of this study was to determine how caretaker-primate relationships affected the behavior of primates in the laboratory. We examined whether stump-tailed macaques (Macaca arctoides) who were evaluated by caretakers as being either friendly or unfriendly differed in the quality and quantity of interactions with their caretakers during husbandry procedures and in their behavior at times of high and low levels of caretaker activity. Results revealed that animals who had friendly relationships with caretakers were less disturbed by routine husbandry procedures, approached caretakers more often, and were willing to accept food offered by caretakers compared with animals considered unfriendly toward their caretakers. The study concluded that the quality of the primate-caretaker relationship may have an important impact on behavior and may have implications for the well-being of animals and caretakers, as both can benefit from positive feedback from one another.     

Activation of kidney-directed neurons in the lamina terminalis by alterations in body fluid balance

This study was undertaken to determine if neurons in the lamina terminalis, previously identified as projecting to the kidney (35), were responsive to alterations in stimuli associated with fluid balance homeostasis. Neurons in the lamina terminalis projecting to the kidney were identified by the retrograde transynaptic transport of Bartha's strain of pseudorabies virus in anesthetized rats. Rats were also exposed to 24-h water deprivation, intravenous hypertonic saline, or intracerebroventricular ANG II. To determine if "kidney-directed" neurons were activated following each stimulus, brain sections that included the lamina terminalis were examined immunohistochemically for viral antigen and Fos protein. With the exception of ANG II in the subfornical organ, all regions of the lamina terminalis contained neurons that were significantly activated by water deprivation, hypertonic saline, and ANG II. These results provide evidence for a neural substrate, which may underpin some of the effects of hypertonic saline and ANG II on renal function thought to be mediated through the lamina terminalis.     

Inhibitory effect of corticoids on the proliferative pattern in mouse palatal processes.

The formation of the secondary palate in mice is accompanied by intensive mitotic activity, which is mainly concentrated at the medial edges of the palatal processes. In control H-Velaz randombred fetuses the mitotic activity culminated approximately 24 h before palatal-shelf horizontalization, so that the period of intensive cell proliferation coincided with the period when cleft palate could be induced by cortisone administration. Effects of teratogenic doses of corticoids, injected directly into amniotic sac of embryos on day 13 (0.3 mg hydrocortisone) or im to pregnant females on day 12 (7.5 mg cortisone acetate), on the proliferative peak in palatal processes were studied using intraamniotic injection of colchicine. Counts of colchicine-blocked mitoses in histological serial sections revealed both a significant decrease in overall mitotic density and a posterior shift of the proliferative peak in the palatal processes of fetuses treated with doses of corticoids producing cleft palate.     

Pulmonary vascular remodeling in isolated mouse lungs: effects on pulsatile pressure-flow relationships

Chronic hypoxia causes pulmonary vasoconstriction and pulmonary hypertension, which lead to pulmonary vascular remodeling and right ventricular hypertrophy. To determine the effects of hypoxia-induced pulmonary vascular remodeling on pulmonary vascular impedance, which is the right ventricular afterload, we exposed C57BL6 mice to 0 (control), 10 and 15 days of hypobaric hypoxia (n=6, each) and measured pulmonary vascular resistance (PVR) and impedance ex vivo. Chronic hypoxia led to increased pulmonary artery pressures for flow rates between 1 and 5ml/min (P<0.01), and increased PVR, 0-Hz pulmonary vascular impedance and the index of wave reflection (P<0.05) as well as a more negative impedance phase angle for low frequencies (P<0.05). The increases in resistance and 0-Hz impedance correlated with increased muscularization of small arterioles measured with quantitative immunohistochemistry (P<0.01). The increases in wave reflection and decreases in phase angle are likely due to increased proximal artery stiffness. These results confirm that chronic hypoxia causes significant changes in steady and pulsatile pressure-flow relationships in mouse lungs and does so via structural remodeling. They also provide important baseline data for experiments with genetically engineered mice, with which molecular mechanisms of pulmonary vascular remodeling can be investigated.     

Developmental changes in the organization of the nuclear lamina in mouse liver

We have compared the organization of the nuclear lamina in adult and fetal mouse liver. Western blot analysis of the expression of lamins with specific antibodies indicates that lamin B is expressed throughout liver development, unlike lamins A and C which are absent in fetal liver. Using [125I]lamin in blot binding assays, we have observed that lamin B binds to at least three membrane proteins (96, 54 and 34 kDa) and to lamins A and C in adult nuclear envelopes, but only to the 54 and 34 kDa proteins and lamin B itself in fetal nuclear envelopes, where lamin B appears to be hyperphosphorylated.     

Intraventricular neuronal complex of the lamina terminalis of the mouse

An intraventricular neuronal complex has been identified with scanning and transmission electron microscopy at the base of the lamina terminalis of the mouse. The raspberry-shaped complex protrudes from a thickened bulge on the ependymal surface of the lamina terminalis or adjacent rostral floor of the third ventricle. Neurons and occasional ependymal cells cover the surface of the complex. Its core is made up of neurons, ependymal cells, and neuronal processes, which are usually compactly arranged. The core is continuous, through a breach in the ependymal layers, with the subependymal neuropil of the lamina terminalis. Within the core of the complex are large numbers of axodendritic synapses. Axonal varicosities and synaptic terminals are filled with vesicles and mitochondria. Synaptic endings have one of two populations of vesicles: exclusively clear, small, round or flattened vesicles. In view of the known structural and functional characteristics of the lamina terminalis, it is possible that the neuronal complex may participate in neurohormonal regulatory systems of the hypothalamus and hypophysis or in the network of circumventricular organs mediating angiotensin effects.     

Sodium-induced alterations of opiate effects on the binding of 3H-dihydromorphine to mouse brain homogenates.

The inhibitory potency of opiate agonists on the stereo-specific binding of 3H-dihydromorphine in mouse brain homogenates was not affected by the presence of sodium ions. That of pure antagonists was greatly enhanced by NaCl whereas the inhibitory effects of mixed agonist-antagonists were reduced by NaCl, indicating that sodium ions might affect the agonist component more than the antagonist component of narcotic-antagonist analgesics. The inhibitory potency of the opiates tested in our system agrees with their potency in reducing the stereospecific binding of 3H-naloxone to rat membranes, the contractions of co-axially stimulated guinea pig ileum and their analgesic potency in animals and humans.     

Localization of glycosaminoglycan substitution sites on domain V of mouse perlecan

Perlecan, the predominant basement membrane proteoglycan, has previously been shown to contain glycosaminoglycans attached at serine residues, numbers 65, 71, and 76, in domain I. However, the C-terminal domains IV and V of this molecule may also be substituted with glycosaminoglycan chains, but the exact substitution sites were not identified. The amino acid sequence of mouse perlecan reveals many ser-gly sequences in these domains that are possible sites for glycosaminoglycan substitution. We expressed recombinant domain IV and/or V of mouse perlecan in COS-7 cells and analyzed glycosaminoglycan substitution. Both heparan sulfate and chondroitin sulfate chains could be detected on recombinant domain V. One site, ser-gly-glu (serine residue 3593), toward the C-terminal region of domain V is a substitution site for heparan sulfate. When this sequence was absent, chondroitin/dermatan sulfate substitution was deleted, and the likely site for this galactosaminoglycan substitution was ser-gly-ala-gly (serine residue 3250) on domain V.     

牡砺糖胺聚糖对血管内皮细胞损伤的保护作用研究

目的：探讨牡蛎糖胺聚糖（O—GAG）对血管内皮细胞损伤的保护作用,观察它对损伤的血管内皮细胞内一氧化氮（NO）、丙二醛（iDA）含量及乳酸脱氢酶（LDH）活性的影响。方法：采用人脐静脉内皮细胞株ECV304体外培养的方法,建立过氧化氢（H2O2）诱导的内皮细胞损伤模型,噻唑蓝（MTT）比色法观察牡蛎糖胺聚糖对血管内皮细胞增殖活性的影响,硝酸还原酶法、硫代巴比妥酸法和硝基苯肼法分别检测细胞内NO的含量、细胞培养液内MDA的含量和LDH的活性。结果：模型组较正常对照组细胞增殖活性明显降低（P〈0．01）。与模型组相比,经牡蛎糖胺聚糖预处理的各保护组（除10μg／ml）细胞增殖活性明显增加（P〈0．05,P〈0．01）,NO的含量增加,MDA的含量和LDH的活性降低（P〈0．01）。牡蛎糖胺聚糖（100、200μg／ml）对于正常的内皮细胞有促增殖作用（P〈0．05）。结论：牡蛎糖胺聚糖对氧化损伤的血管内皮细胞具有保护作用,其作用机制可能与增加细胞NO含量、减少MDA生成和LDH释放有关。牡蛎糖胺聚糖对正常血管内皮细胞在一定剂量范围内有促增殖作用．