Judith Weisz

Maternal Stress Decreases Steroid Aromatase Activity in Brains of Male and Female Rat Fetuses

Steroid aromatase activity was measured in homogenates of combined hypothalamic and amygdaloid specimens obtained from 17- to 21-day-old male and female rat fetuses. The fetuses were obtained both fro

Central inhibition of nitric oxide synthase preferentially augments release of oxytocin during dehydration

Intracerebroventricular (i.c.v.) administration of NG-monomethyl-L-arginine monoacetate (NMMA; 500 micrograms; 402 mM) and NG-nitro-L-arginine methyl ester (NAME; 270 micrograms; 200 mM), inhibitors of nitric oxide synthase, enhanced the rise in oxytocin but not vasopressin levels in plasma of conscious rats following 24 h of water deprivation. This effect of NMMA occurred by 10 min after administration, reached its peak at 15 min and decreased by 20 min. Daily administration of lower doses (50 micrograms and 0.5 microgram/5 microliter, i.c.v.) of another inhibitor of nitric oxide synthase, NG-nitro-L-arginine, just before and after 24 h of water deprivation and in control animals treated similarly were without effect on either vasopressin or oxytocin levels. Nitric oxide, therefore, attenuates preferentially the release of oxytocin during dehydration.

Surfactant protein A, an innate immune factor, is expressed in the vaginal mucosa and is present in vaginal lavage fluid

Surfactant protein A (SP‐A), first identified as a component of the lung surfactant system, is now recognized to be an important contributor to host defence mechanisms. SP‐A can facilitate phagocytosis by opsonizing bacteria, fungi and viruses, stimulate the oxidative burst by phagocytes and modulate pro‐inflammatory cytokine production by phagocytic cells. SP‐A can also provide a link between innate and adaptive immune responses by promoting differentiation and chemotaxis of dendritic cells. Because of the obvious relevance of these mechanisms to the host defence and ‘gate keeping’ functions of the lower genital tract, we examined human vaginal mucosa for SP‐A protein and transcripts and analysed vaginal lavage fluid for SP‐A. By immunocytochemistry, SP‐A was identified in two layers of the vaginal epithelium: the deep intermediate layer (the site of newly differentiated epithelial cells); and the superficial layer (comprising dead epithelial cells), where SP‐A is probably extracellular and associated with a glycocalyx. Transcripts of SP‐A were identified by Northern blot analysis in RNA isolated from vaginal wall and shown, by sequencing of reverse transcription–polymerase chain reaction products, to be derived from each of the two closely related SP‐A genes, SP‐A1 and SP‐A2. SP‐A was identified in vaginal lavage fluid by two‐dimensional gel electrophoresis, and confirmed by mass spectrometry. This study provides evidence, for the first time, that SP‐A is produced in a squamous epithelium, namely the vaginal mucosa, and has a localization that would allow it to contribute to both the innate and adaptive immune response. The findings support the hypothesis that in the vagina, as in lung, SP‐A is an essential component of the host‐defence system. A corollary hypothesis is that qualitative and quantitative alterations of normal SP‐A may play a role in the pathogenesis of lower genital tract inflammatory conditions.

A quantitative cytochemical study of glucose-6-phosphate dehydrogenase and Δ5-3β-hydroxysteroid dehydrogenase activity in the Membrana granulosa of the ovulable type of follicle of the rat

SummaryDuring the last four days of follicular development prior to ovulation, the activities of Δ5-3β-hydroxysteroid dehydrogenase (3βOHD) and glucose-6-phosphate dehydrogenase (G-6-PD) were quantified in cryostat sections of the rat ovary. The product of the enzyme reactions were measured using a scanning and integrating microdensitometer. The enzyme activity was measured in the peripheral region, the antral region and the cumulus of the membrana granulosa (MG) of these follicles on the morning of each of the four days of the estrous cycle. G-6-PD activity was measured in the presence and absence of an intermediate hydrogen acceptor, phenazine methosulphate, to provide a measure of the quantity of Type I and Type II Hydrogen (H) generated: Type I H is considered to be related to hydroxylating reactions such as those of steroids and Type II H to other general biosynthetic activities of cells.In all three regions of the MG of follicles of the ovulable type, 3βOHD activity was lowest in estrus and diestrus-1, increased on diestrus-2 and peaked in proestrus. In estrus and diestrus-1, the level of 3βOHD activity in the three regions was comparable. However, by diestrus-2, and even more conspicuously in proestrus, enzyme activity was significantly greater in the peripheral region than in the antral region or in the cumulus. During the same period, the level of enzyme activity remained comparable in the last two regions. Throughout the estrous cycle, both Type I and Type II H generation from G-6-PD was greatest in the peripheral region, less in the antral region and least in the cumulus. In the peripheral region, Type I H generation increased progressively after diestrus-1, to reach a maximum in proestrus. In the antral region, Type I H generation increased between diestrus-1 and diestrus-2 and then remained unchanged through proestrus. In the cumulus, Type I H generation remained at levels seen in estrus throughout the remainder of the cycle. Generation of Type II H, in the peripheral region was constant throughout the estrous cycle. In contrast, in the antral region and cumulus, Type II H generation was greater in diestrus-1 and diestrus-2 than on either proestrus or estrus.

Metabolites of Testosterone in the Brain of the Newborn Female Rat after an Injection of Tritiated Testosterone

Hypothalamic, septal, amygdaloid and corticalareas from brains and the pituitaries of 5-day-old female rats were analyzed for their content of labeled dihydrotestosterone (DHT), androstenedione (A), 5

Vitamin A: recent advances in the biotransformation, transport, and metabolism of retinoids.

Advances in vitamin A research in 1999 and 2000 have improved the understanding the molecular processes through which β-carotene and other provitamin A carotenoids are converted to vitamin A, the roles of cellular retinoid-binding proteins that serve as retinoid chaperones during metabolism, the regulation of retinoid transport, and the nature and regulation of several enzymes required for the absorption, storage, activation, and inactivation or degradation of retinoids. Not only has a clearer picture emerged of specific molecular processes, but it is also becoming evident that whole-body retinoid homeostasis is facilitated by close communication among organs due to the rapid interorgan recirculation of retinoids, and by the “autoregulation” by retinoic acid of several enzymes and retinoid-binding proteins that mediate retinoid homeostasis.

Altered gene expression in breast cancer liver metastases

We previously developed a highly aggressive cell line from heart metastases of 4T1 breast carcinoma (designated 4THM), which produced liver metastases (designated 4TLM). In this study, gene array analysis (GAEA) compared gene expression profiles in 4TLM with profiles in 4T1 and 4THM primary tumors. GAEA demonstrated that 4T1 and 4THM tumors differed in about 250 genes. Over 1,000 genes, however, were expressed differently in 4TLM compared with primary tumors. A cohort of 16 genes showed significantly decreased expression in 4THM tumors, which decreased even further in 4TLM. Many of these genes have been implicated in breast cancer, and many are involved in cell adhesion and junctional complexes. Expression of multiple tight and adherence junction proteins was either downregulated or disappeared in 4TLM; downregulation of claudin 4, claudin 7 and γ‐catenin was confirmed by quantitative polymerase chain reaction, immunoblot, and immunocytochemical (ICC) analyses. At the protein level, intact ZO‐1 was also observed in 4T1 tumors, but was not expressed in 4THM or 4TLM tumors. ICC demonstrated expression of γ‐catenin at the plasma membrane with 4T1 tumors, whereas staining appeared to be nuclear/perinuclear in 4THM tumors. Claudin 7 staining was also seen in monocyte/pmacrophage‐like cells in liver around metastatic lesions by ICC, and it appeared that larger 4TLM tumors apparently reexpressed claudin 7 RNA and protein. Our results demonstrate that decreased or abnormal expression of a number of cell adhesion/junctional proteins, including claudin 4, 7, ZO‐1 and γ‐catenin, correlates with liver metastases, and that cell adhesion molecules in the microenvironment are also altered.

Effect of chronic estrogen treatment of syrian hamsters on microsomal enzymes mediating formation of catecholestrogens and their redox cycling: Implications for carcinogenesis

Estrogens have previously been shown to induce DNA damage in Syrian hamster kidney, a target organ of estrogen-induced cancer. The biochemical mechanism of DNA adduction has been postulated to involve free radicals generated by redox cycling of estrogens. As part of an examination of this postulate, we measured the effect of chronic estrogen treatment of hamsters on renal microsomal enzymes mediating catechol estrogen formation and free radical generation by redox cycling of catechol estrogens. In addition, the activities of the same enzymes were assayed in liver in which tumors do not develop under these conditions. At saturating substrate concentration, 2- and 4-hydroxyestradiol were formed in approximately equal amounts (26 and 28 pmol/mg protein/min, respectively), which is 1-2 orders of magnitude higher than reported previously. Estradiol treatment for 2 months decreased 2-hydroxylase activity per mg protein by 75% and 4-hydroxylase activity by 25%. Hepatic 2- and 4-hydroxylase activities were 1256 and 250 pmol/mg protein/min, respectively. Estrogen treatment decreased both activities by 40-60%. Basal peroxidatic activity of cytochrome P-450, the enzyme which oxidizes estrogen hydroquinones to quinones in the redox cycle, was 2.5-fold higher in liver than in kidney and did not change with estrogen treatment. However, when normalized for specific content of cytochrome P-450 the enzyme activity in kidney was 2.5-fold higher than in liver and increased further by 2-3-fold with chronic estrogen treatment. The activity of cytochrome P-450 reductase, which reduces quinones to hydroquinones in the estrogen redox cycle, was 6-fold higher in liver than in kidney of both control and estrogen-treated animals. When normalized for cytochrome P-450, the activity of this enzyme was similar in liver and kidney, but over 4-fold higher in kidney than liver after estrogen treatment. Basal concentrations of superoxide, a product of redox cycling, were 2-fold higher in liver than in kidney. Estrogen treatment did not affect this parameter in liver, but increased it in kidney by 40%. These data provide evidence for a preferential preservation of enzymes involved in estrogen activation.

Localization of Dopamine and Norepinephrine in the Medial Basal Hypothalamus of the Rat

To clarify the spatial localization of dopamine (DA) and norepinephrine (NE) in the basal hypothalamus of the rat, superficial, intermediate or deep portions of the basal hypothalamus were assayed for these amines. Superficial basal hypothalamic specimens (av. wt. 0.45 mg) comprising mainly the median eminence (ME) had the highest concentrations of DA (>10 µg/g tissue). The intermediate and deep specimens, which included increasing amounts of tissue adjacent to and deep to the ME, had lower concentrations (5 and 3 µg/g, respectively). In contrast, the concentrations of NE did not differ in the three preparations and averaged 2 µg/g. The concentration of epinephrine, a substance which can interfere with the assay for NE, was less than 0.1 µg/g. These results indicate that DA in the basal hypothalamus is concentrated in the ME, and confirm previously published histochemical and pharmacological studies indicating that DA is the predominant catecholamine in this region.

Metabolic reprogramming and dysregulated metabolism: cause, consequence and/or enabler of environmental carcinogenesis?

Environmental contributions to cancer development are widely accepted, but only a fraction of all pertinent exposures have probably been identified. Traditional toxicological approaches to the problem have largely focused on the effects of individual agents at singular endpoints. As such, they have incompletely addressed both the pro-carcinogenic contributions of environmentally relevant low-dose chemical mixtures and the fact that exposures can influence multiple cancer-associated endpoints over varying timescales. Of these endpoints, dysregulated metabolism is one of the most common and recognizable features of cancer, but its specific roles in exposure-associated cancer development remain poorly understood. Most studies have focused on discrete aspects of cancer metabolism and have incompletely considered both its dynamic integrated nature and the complex controlling influences of substrate availability, external trophic signals and environmental conditions. Emerging high throughput approaches to environmental risk assessment also do not directly address the metabolic causes or consequences of changes in gene expression. As such, there is a compelling need to establish common or complementary frameworks for further exploration that experimentally and conceptually consider the gestalt of cancer metabolism and its causal relationships to both carcinogenesis and the development of other cancer hallmarks. A literature review to identify environmentally relevant exposures unambiguously linked to both cancer development and dysregulated metabolism suggests major gaps in our understanding of exposure-associated carcinogenesis and metabolic reprogramming. Although limited evidence exists to support primary causal roles for metabolism in carcinogenesis, the universality of altered cancer metabolism underscores its fundamental biological importance, and multiple pleiomorphic, even dichotomous, roles for metabolism in promoting, antagonizing or otherwise enabling the development and selection of cancer are suggested.