DNA fragmentation in developing lung fibroblasts exposed to Stachybotrys chartarum (atra) toxins.

Stachybotrys chartarum (atra) is a toxic mold that grows on water-damaged cellulose-based materials. Research has revealed also that inhalation of S. chartarum spores caused marked changes in respiratory epithelium, especially to developing lungs. We analyzed the epigenetic potential of S. chartarum spore toxins on developing rat lung fibroblasts using single cell gel electrophoresis (comet assay). Isolated fetal lung fibroblasts were exposed to S. chartarum spore toxins for 15 min, 3, 14, or 24 hr and control cells were exposed to saline under the same conditions. Cells were embedded in agarose, electrophoresed under alkaline conditions and silver stained. DNA damage was assessed in terms of fragmentation as measured by comet tail length (DNA migration) and intensity (% DNA contained within head and tail). Upon visual inspection, control fibroblasts showed no DNA fragmentation whereas S. chartarum-treated cells had definable comets of various degrees depending upon the time-course. Analyses of the comets revealed that exposure to S. chartarum spore toxins for at least 15 min to 14 hr, induced increased DNA fragmentation in a time-dependent manner. The fact that exposure to toxins for 24 hr showed less damage suggested that developing lung fibroblasts may have the capability of repairing DNA fragmentation.

Primary hypoandrogenism in experimental diabetes in the Long-Evans rat.

The hormonal milieu of the testis was examined in streptozocin-induced diabetic (STZ-D) adult male Wistar and Long-Evans rats. Serum testosterone, creatinine, and urea nitrogen (BUN) levels and blood glucose concentrations were determined in diabetic and control Wistar rats (experiment 1). These parameters plus luteinizing hormone (LH) and follicle-stimulating hormone (FSH) levels were studied in experiments 2 and 3 with Long-Evans rats in untreated diabetic, control, insulin-treated diabetic, nondiabetic STZ-injected, and semistarved groups. Wistar diabetic rats had significantly decreased serum testosterone and increased blood glucose, BUN, and serum creatinine compared with controls. Several findings in Long-Evans rats suggested the existence of a primary Leydig cell defect in steroidogenesis during untreated diabetes that was completely or partially compensated for by increased pituitary gonadotropin secretion. Serum LH and FSH levels increased in Long-Evans diabetic rats. Serum testosterone was significantly reduced only in experiment 2. These hormonal alterations from control levels were not seen in insulin-treated diabetic animals. Semistarved animals, weight matched to the diabetic group in experiment 2, had significantly decreased serum testosterone and increased FSH levels. In addition, Long-Evans diabetic rat BUN and serum creatinine levels increased much less or were unchanged from control values compared with the increase noted in diabetic Wistar rats. In light of the hypogonadism that complicates clinical uremia, these findings suggest the more apt use of the Long-Evans strain rather than the Wistar strain in the study of STZ-D hypogonadal function.(ABSTRACT TRUNCATED AT 250 WORDS)

Stachybotrys chartarum alters surfactant-related phospholipid synthesis and CTP:cholinephosphate cytidylyltransferase activity in isolated fetal rat type II cells.

Stachybotry chartarum, a fungal contaminant of water-damaged buildings commonly grows on damp cellulose-containing materials. It produces a complex array of mycotoxins. Their mechanisms of action on the pulmonary system are not entirely clear. Previous studies suggest spore products may depress formation of disaturated phosphatidylcholine (DSPC), the major surface-active component of pulmonary surfactant (PS). If S. chartarum can indeed affect formation of this phospholipid, then mold exposure may be a significant issue for pulmonary function in both mature lung and developing fetal lung. To address this possibility, fetal rat type II cells, the principal source of DSPC, were used to assess effects of S. chartarum extract on formation of DSPC. Isolated fetal rat lung type II cells prelabeled with 3H-choline and incubated with spore extract showed decreased incorporation of 3H-choline into DSPC. The activity of CTP:cholinephosphate cytidylyltransferase (CPCT), the rate-limiting enzyme in phosphatidylcholine synthesis was reduced by approximately 50% by a 1:10 dilution of spore extract. Two different S. chartarum extracts (isolates from S. chartarum (Cleveland) and S. chartarum (Hawaiian)) were used to compare activity of CPCT in the presence of phosphatidylglycerol (PG), a known activator. PG produced an approximate two-fold increase in CPCT activity. The spore isolate from Hawaii did not alter enzyme activity. S. chartarum (Cleveland) eliminated the PG-induced activation of CPCT. These results support previous observations that mold products alter PS metabolism and may pose a risk in developing lung, inhibiting surfactant synthesis. Different isolates of the same species of fungus are not equivalent in terms of potential exposure risks.

Thyroid function in pyridoxine-deficient young rats.

In pyridoxine-deficient young rats hypothalamic serotonin was decreased with no changes in the dopamine and noradrenaline content. Serum thyroxine and tri-iodothyronine concentrations were much lower in the deficient rats as compared to pyridoxine-supplemented controls. No significant difference between deficient and control groups in the serum TSH concentration was detected. Highly significant decreases in the content of pituitary TSH and in the number of pituitary thyrotroph secretory granules were found. These results suggest that the hypothyroidism of pyridoxine-deficient young rats might be of hypothalamic origin.

Influence of bromocriptine and oestrogen on prolactin synthesis, secretion and tumour growth in vivo in rats.

The effects of diethylstilboestrol implants and bromocriptine administration on serum prolactin concentrations, prolactin messenger RNA (mRNA) and pituitary tumour weight were examined. Intact female Fischer 344 rats were implanted s.c. with 10 mg diethylstilboestrol (DES) under light anaesthesia. All animals except the control group carried the implant for 7 weeks at which time the rats were subdivided into five groups: A, control; B, DES for 7 weeks; C, DES for 7 weeks followed by withdrawal of DES for 1 week; D, DES for 7 weeks followed by withdrawal of DES and administration of bromocriptine for 1 week; E, DES for 8 weeks with concurrent administration of bromocriptine during the last week. Serum concentrations of prolactin were measured by radioimmunoassay, prolactin mRNA concentrations were measured by dot-blot hybridization and sodium dodecylsulphate-polyacrylamide gel electrophoresis of the in-vitro translated mRNA. Pituitary growth was estimated by changes in pituitary weight and assessed by light and electron microscopic examination. Treatment with DES dramatically increased serum prolactin concentrations and prolactin mRNA and induced pituitary tumour formation as shown by histological changes. Withdrawal of DES for 1 week did not lead to a decrease in pituitary tumour weight but was accompanied by a decrease in serum prolactin concentrations and prolactin mRNA from peak concentrations although they remained significantly increased above controls. Treatment with bromocriptine after DES implants were removed led to a significant reduction in pituitary tumour weight and a decrease in serum prolactin concentrations and prolactin mRNA. Histology of the pituitary tumour after the bromocriptine treatment showed pituitary cells similar to those from normal animals.(ABSTRACT TRUNCATED AT 250 WORDS)

Prevention of insulin-dependent diabetes mellitus by 2'-deoxycoformycin in the BB Wistar rat.

The effect of the adenosine deaminase (ADA) inhibitor 2'-deoxycoformycin (dCF) on the development of insulin-dependent diabetes mellitus (IDDM) was assessed in the BB Wistar rat. Sixty-one male rats were treated from days 30 to 120 with 0, 0.5, 1.0 or 1.5 mg dCF/kg/week. The incidence of IDDM was 78% in the controls and was significantly (P < 0.01) decreased in rats receiving 1.5 mg dCF/kg/week (32%), but not in rats receiving lower doses of the drug. However, for those rats that became diabetic the mean time to the development of IDDM was unchanged in animals receiving dCF compared with control. dCF treatment did not produce significant weight loss in the animals or gross changes in the thymus, spleen or kidneys. Although the protective effect of dCF against IDDM was likely produced by immunosuppression, the different dCF dosages had similar effects on ADA suppression in spleen or thymus and on dATP accumulation in these organs.

A comparison of the effects of rapamycin and cyclosporine on kidney and heart morphology in a rabbit heterotopic heart transplant model.

Rapamycin (RAPA) or cyclosporine (CsA) was administered intravenously, daily for 60 days, to rabbits with heterotopic heart transplants. Groups of 5 rabbits were randomly assigned to receive RAPA at 0.05, 0.1, 0.5 or 1.0 mg/kg/day or CsA at either 5.0, 10.0 or 15 mg/kg/day. Drug vehicle and saline controls were also included. Animals were examined daily and the cervical allografts assessed by palpation for viability/rejection. In those animals in which the heart stopped beating, the heart was removed and processed for light microscopic evaluation. The duration of the study was for 60 days at which time the animals were sacrificed and the transplanted heart and native kidneys removed and processed for light microscopic assessment of rejection and drug toxicity respectively. Biochemical and functional parameters in these animals were previously reported (Transplantation 5: 340-345, 1993). Animals that rejected their grafts were maintained on the drug until the endpoint of the study to assess toxicity in the native kidneys. The rejected hearts from these animals were also harvested for microscopic evaluation. The results of the study revealed that heart rejection in drug treated animals was significantly lower than in corresponding controls but not different among the various drug treated groups. In the kidney, there were no differences in glomerular tuft area or tuft volume density amongst drug-treated or control animals. In contrast, tubule atrophy and interstitial fibrosis were markedly greater in CsA-treated vs RAPA-treated animals (X2 5.00, p < 0.02).(ABSTRACT TRUNCATED AT 250 WORDS)

A comparison of cyclosporine A and cyclosporine G in a rabbit heterotopic cardiac transplant model: graft outcome and histological findings.

Cervical heterotopic heart transplants were performed on 20 male New Zealand white rabbits comprising 4 treatment groups. Animals in each group were injected daily via the marginal ear vein and received one of the following regimes: Cyclosporine A, 10 mg/kg/day; Cyclosporine G, 15 mg/kg/day; cremophor-El, 3ml/day; or normal saline. Measurement of 24 hour trough blood concentrations revealed no significant differences between the average concentrations of Cyclosporine A and Cyclosporine G. Animals were examined daily and the cervical allografts assessed by palpation for viability/rejection. The duration of the study ended for each animal when the graft stopped beating at which time the animals were euthanized and the transplanted heart and native kidneys harvested and processed for light microscopy evaluation of rejection and drug toxicity, respectively. Graft survival in the Cyclosporine A group significantly surpassed that seen in the Cyclosporine G group as well as the control groups, whereas in animals treated with Cyclosporine G, graft survival was not different from controls. In the native kidney, there were no differences in glomerular tuft area or volume density amongst drug-treated or control animals. In contrast, tubule atrophy and interstitial fibrosis were markedly greater in Cyclosporine A-treated vs Cyclosporine G-treated animals. The results of this study indicate that, whereas Cyclosporine G is less nephrotoxic than Cyclosporine A, given equivalent blood concentrations Cyclosporine A delays rejection of a cardiac allograft significantly longer than Cyclosporine G in this animal species.

Functional status of the immune system after chronic administration of 2'-deoxycoformycin in the BB rat.

Insulin-dependent diabetes mellitus (IDDM) is caused by autoimmune destruction of pancreatic beta cells with the primary mechanism being cell mediated. The BB rat develops insulitis and IDDM with many features analogous to the disease in man. In previous studies we reported that weekly administration of 2'-deoxycoformycin (dCF) for four months reduces significantly the incidence of IDDM in the BB rat by 70%, and that the animals remain free of diabetes for a minimum of two months after drug withdrawal. Since the diabetes-prone BB rat is lymphopenic, with a reduction of both CD4 and CD8 cells, the continuous failure of dCF treated animals to develop diabetes may have been due to generalized immunosuppression. To test this possibility, the ability of dCF treated diabetes-free BB rats to mount an immune response after challenge with Ovalbumin was examined five months after drug withdrawal. The results showed that the post-immunization levels of total IgG and specific IgG in these animals did not differ from those observed in non-dCF treated controls nor those of control diabetes-resistant non-lymphopenic BB rats. Moreover, FACS analysis indicated no change in the percentages of total numbers of CD4+ or CD8+ cells between the two groups of animals. Histological assessment of the pancreata of the post-dCF treated animals showed varying degrees of mononuclear cell infiltrates in the islets. These data demonstrate that treatment by dCF is not permanent, and may require intermittent or continuous administration to prevent development of diabetes. Further studies are needed to determine the mechanism of action of dCF in this model of IDDM.

Evidence against the involvement of nonenzymatic glycosylation in diabetic cardiomyopathy.

There is evidence to suggest that increased nonenzymatic glycosylation (NEG) occurs in hyperglycemic states such as seen in diabetes mellitus. In order to examine the hypothesis that the development of cardiomyopathy in diabetes results from an increased nonenzymatic glycosylation of cardiac sarcolemmal proteins, rats were made diabetic by an intravenous (IV) injection of streptozotocin (65 mg/kg). Twelve weeks after the induction of diabetes, animal showed significantly lower heart rate, left ventricular systolic pressure, rate of contraction (+dp/dt), and rate of relaxation (-dp/dt), whereas left ventricular diastolic pressure was markedly increased. Furthermore, cardiac sarcolemmal Na+, K+ adenosine triphosphatase (ATPase) activity was significantly decreased in diabetic rats. When examined in cardiac crude membranes, as well as in purified sarcolemmal membranes prepared by two different procedures, the levels of NEG did not differ between control and diabetic animals; however, NEG levels were increased in kidney and skeletal muscle. These results indicate that chronic diabetes is associated with functional and biochemical alterations in cardiac muscle and suggest that NEG of cardiac sarcolemma may not play any role in the development of diabetic cardiomyopathy.

Congenital adrenal hyperplasia with testicular tumors, aggression, and gonadal failure.

Bilateral testicular tumors (adrenal rests) may occur in untreated or poorly controlled congenital adrenal hyperplasia. This case report describes two unique associated phenomena: (1) psychologic disturbances similar to those seen with exogenous androgen abuse, which resolved with appropriate glucocorticoid suppression of androgen over-production by this abnormal adrenal/adrenal rest tissue; and (2) testicular failure which showed a partial, delayed recovery with corticosteroid therapy. The need for a careful history and biochemical screening for all patients with bilateral testicular tumors is reinforced.

Comparison of the effect of rapamycin and FK506 on release of prostacyclin and endothelin in vitro.

Alterations in mesangial and endothelial cell production of vasoactive substances may be a contributing factor to the decreased renal blood flow and glomerular thrombosis associated with FK506 nephrotoxicity. In preliminary studies Rapamycin (RAPA) appears to induce fewer renal side-effects than FK506, although further documentation is required. In this study, the effects of FK506 and RAPA on release of prostacyclin, a vasodilator, and endothelin, a vasoconstrictor, were investigated in cultured rabbit mesangial and endothelial cells. In general, the effects of both RAPA and FK506 on the basal or stimulated release of prostacyclin (as measured by release of its stable metabolite, 6-keto-PGF1 alpha) or endothelin from mesangial cells and endothelial cells were similar with the following exceptions: RAPA resulted in a significant (p < 0.05) increase in the release of prostacyclin (PGI2) from endothelial cells, while in contrast, FK506 resulted in a significant decrease in the release of this analyte from these cells. The similar effects both drugs have on release of vasodilatory and vasoconstrictor substances in vitro does not explain the differences in renal side-effects of the drugs in vivo.

Cyclosporine nephrotoxicity--experimental models.

Cyclosporine A (CsA) represents one of the more important therapeutic advances in the field of kidney transplantation. However, its effectiveness is limited by serious side effects, most notably nephrotoxicity. Investigation of the mechanisms of CsA-induced renal dysfunction has been hampered by the lack of a suitable experimental model. The majority of studies using the rodent have failed to exhibit all of the structural changes seen in chronic CsA-induced nephrotoxicity reported in man, using pharmacologic doses administered orally, subcutaneously, or intravenously. More recently, studies using the rabbit as an experimental model have demonstrated leucocyte infiltration, tubular atrophy, interstitial fibrosis, and arteriolopathy after therapeutic doses of CsA over 30 days. These changes are similar to those seen in chronic CsA-induced nephrotoxicity in man.

Immunotherapy for insulin-dependent diabetes mellitus in the "BB" rat.

We have previously reported that weekly administration of the adenosine deaminase inhibitor, 2'-deoxycoformycin (dCF), reduces the incidence of insulin-dependent diabetes mellitus (IDDM) in the BB Wistar rat, and this effect is likely due to immunosuppression by dCF. In the present study, we examined the effect of altering the dose and scheduling of dCF on prevention of IDDM in the BB rat. When rats were treated from day 25 of age with 2.5, 4, or 10 mg of dCF/kg/week, the percentage of diabetes-free animals at 120 days of age was 40, 60, and 80% respectively, compared with 10% for control animals, demonstrating increased protection against IDDM with increased dCF dose. Histological assessment of the pancreata from animals that became diabetic revealed a marked mononuclear infiltrate and a loss of positive staining for beta cell granules. In contrast, pancreata from animals that remained diabetes-free appeared normal. Protection against IDDM by dCF was time dependent and only occurred if treatments were initiated by day 30 of age. In addition, the protective effect persisted after drug withdrawal. Further studies are required to determine the optimum duration of therapy with dCF to prevent IDDM and to examine the immunological mechanism responsible for this effect.

Analysis of pulmonary surfactant by Fourier-transform infrared spectroscopy following exposure to Stachybotrys chartarum (atra) spores.

Lung cells are among the first tissues of the body to be exposed to air-borne environmental contaminants. Consequently the function of these cells may be altered before other cells are affected. As gas exchange takes place in the lungs, changes in cellular function may have serious implications for the processes of oxygen uptake and carbon dioxide elimination. In order for these processes to occur, the lung must maintain a high degree of expandability. This latter function is accomplished in part by the pulmonary surfactant which is synthesized and released by alveolar type II cells. Earlier studies have shown that exposure to gas phase materials such as smoke or organic solvents can alter the composition and function of the surfactant. The present study examines the ability of highly toxigenic mold spores to alter surfactant composition. Stachybotrys chartarum spores suspended in saline were instilled into mouse trachea as described earlier. After 24 h, the lungs were lavaged and the different processing stages of surfactant isolated by repeated centrifugation. Intracellular surfactant was isolated from the homogenized lung tissue by centrifugation on a discontinuous sucrose gradient. Samples were extracted into chloroform-methanol, dried and analyzed by Fourier-Transform infrared spectroscopy (FTIR). Exposure to S. chartarum induced an overall reduction of phospholipid among the three surfactant subfractions. The intermediate and spent surfactant fractions in particular were reduced to about half of the values observed in the saline-treated group. The relative distribution of phospholipid was also altered by spore exposure. Within the intracellular surfactant pool, higher levels of phospholipid were detected after spore exposure. In addition, changes were observed in the nature of the phospholipids. In particular strong intramolecular hydrogen bonding, together with other changes, suggested that spore exposure was associated with absence of an acyl chain esterified on the glycerol backbone, resulting in elevated levels of lysophospholipid in the samples. This study shows that mold spores and their products induce changes in regulation of both secretion and synthesis of surfactant, as well as alterations in the pattern of phospholipid targeting to the pulmonary surfactant pools.

Effect of low-protein diet on alveolar bone loss in streptozotocin-induced diabetic rats.

The present study demonstrated that hyperglycemic diabetic rats fed a low-protein (8%) diet maintained an alveolar bone height similar to controls; in contrast, those fed a standard protein diet (24%) had reduced alveolar bone height (P less than 0.05). Euglycemic diabetic and untreated control rats fed low-protein diets did not have significant differences in alveolar bone height compared to those fed standard protein diets. There was no evidence of gingival or periodontal inflammation or osteoclastic bone resorption at the alveolar crest in any animal studied. Thus, (1) hyperglycemic diabetic rats have significant alveolar bone loss in the absence of periodontal inflammation (P less than 0.001) and (2) this bone loss can be alleviated by diet (P less than 0.05). This data, taken together with previous studies on the effects of low-protein diet on the kidney, suggest that relieving the protein load on the diabetic kidney in poorly controlled diabetics is beneficial to the longevity of that organ, as well as the preservation of alveolar bone surrounding the teeth.

Effect of fixation on the ultrastructural localization of delta 53 beta-hydroxysteroid dehydrogenase in adrenocortical and Leydig cells of the rat.

A comparison of the effects of perfusion and immersion fixation on localization of delta 53 beta-HSD in adrenocortical and testicular Leydig cells has been made. The results demonstrated that regardless of the mode of fixation, localization of the enzyme (smooth endoplasmic reticulum) and variability in staining intensity were similar in both tissues. Also noted was the uneven distribution of the staining reaction product within the cells. This finding was interpreted as an expression of regional disparity in metabolic activity rather than artefactual since this phenomenon was noted in both perfusion and immersion fixed tissue.

Histological observations of palatal malformations in rat embryos induced by retinoic acid treatment.

Malformations of the palate were induced in white rat embryos following maternal exposure to retinoic acid (tretinoin). Five experimental groups and the controls were treated by the following protocol: Group 1: pregnant rats received 100 mg retinoic acid (RA)/kg b.w. suspended in corn oil on gestational day (GD) 11.5; Group 2: 20 mg RA/kg b.w. from GD 8-12; Group 3: 20 mg RA/kg b.w. from GD 7.5-11.5; Group 4: 100 mg RA/kg b.w. on GD 10-11; Group 5: 100 mg RA/kg b.w. on GD 10 and 12; Group 6 received corn oil vehicle from GD 7-14.5; and Group 6: served as non-injected controls. In all retinoic acid treated groups, varying degrees of clefts with occasional attempts of fusion were noted. The severity and frequency of the malformations were dependent on dosage or gestational day of drug treatment. Our results indicate that RA, even at the lowest dose tested (20 mg/kg b.w.) severely affects the various tissues constituting the embryonic palatal shelves by altering cell interaction and possibly programmed cell death. These events would then result in lack of or inadequate differentiation with subsequent formation of aberrant craniofacial architecture.

Craniofacial abnormalities induced by retinoic acid: a preliminary histological and scanning electron microscopic (SEM) study.

Exogenous retinoic acid has been found to be teratogenic in animals and man. Craniofacial defects induced by retinoic acid have stimulated considerable research interest. The present report deals with scanning electron microscopical observations of the craniofacial region concurrent with histological examination of craniofacial dysmorphism induced in rat embryos following maternal treatment treated with varying dosages of all-trans-retinoic acid (tretinoin). Two groups of pregnant rats were treated with rat embryos exposed to retinoic acid suspended in corn oil (100 mg/kg b.w. on gestational day 11.5 and 50 mg/kg b.w. on gestational day 10, 11 and 12 respectively). A third group was treated with corn oil (vehicle) while a fourth group remained untreated. A wide spectrum of congenital abnormalities, including exophthalmos, microphthalmia and anophthalmia, maxillo-mandibular dysostosis, micrognathia of both maxilla and mandible, cleft palate, subdevelopment of ear lobe, preauricular tags and macroglossia, were observed in the offspring of retinoic acid treated animals. The abnormalities were both time and dosage dependent, and characteristic of Treacher Collins syndrome when retinoic-acid was administered on gestational day 11.5. In contrast, when retinoic acid was administered were on gestational days 10-12, the defects were similar to those seen in the first and second pharyngeal arch syndrome, as well as in the oculo-auriculo-vertebral spectrum. Whereas our data support the hypothesis that all-trans retinoic-acid disturbs growth and differentiation of several embryonic cell types essential for normal craniofacial development, its mechanism of action remains unclear.

Effect of valproic acid on fetal and maternal organs in the mouse: a morphological study.

Valproic acid (VPA) is an antiepileptic drug used clinically. Because of its known teratogenic properties VPA is not recommended for women of child bearing age. The present study was designed to assess the effects of VPA on both fetal and maternal organs. Randomized groups of pregnant mice were treated as follows: Group 1 (n = 10) 500 mg/kg VPA/day on gestation days 8-11; Group 2 (n = 10) 600 mg/kg VPA/day on gestation days 8-11; and Group 3 (n = 4) saline-injected controls. On gestation day 18, the pregnant mice were euthanized, fetuses collected and prepared for scanning electron microscopy. In addition, fetal and maternal organs were processed for routine histology, immunohistochemistry for growth factors (TGF alpha, beta-1, beta-2 and EGF) and transmission electron microscopy. Scanning microscopy revealed specific lesions induced by VPA in the fetus, namely spina bifida occulta, exencephaly, and exophthalmia. On the other hand, there were no detectable morphological changes in fetal or maternal organs by routine histology, immunohistochemistry or electron microscopy. The data suggest that the lesions present in the fetus are due to a direct effect by VPA on retinoic acid, a ubiquitous compound that has a role in normal development, rather than the lack of transport of sufficient nutrients to the fetus as a result of placental insufficiency due to VPA-induced toxicity.