Spatial Localization and Quantitation of Androgens in Mouse Testis by Mass Spectrometry Imaging

Androgens are essential for male development and reproductive function. They are transported to their site of action as blood-borne endocrine hormones but can also be produced within tissues to act in intracrine and paracrine fashions. Because of this, circulating concentrations may not accurately reflect the androgenic influence within specific tissue microenvironments. Mass spectrometry imaging permits regional analysis of small molecular species directly from tissue surfaces. However, due to poor ionization and localized ion suppression, steroid hormones are difficult to detect. Here, derivatization with Girard T reagent was used to charge-tag testosterone and 5α-dihydrotestosterone allowing direct detection of these steroids in mouse testes, in both basal and maximally stimulated states, and in rat prostate. Limits of detection were ∼0.1 pg for testosterone. Exemplary detection of endogenous steroids was achieved by matrix-assisted laser desorption ionization and either Fourier transform ion cyclotron resonance detection (at 150 μm spatial resolution) or quadrupole-time-of-flight detection (at 50 μm spatial resolution). Structural confirmation was achieved by collision induced fragmentation following liquid extraction surface analysis and electrospray ionization. This application broadens the scope for derivatization strategies on tissue surfaces to elucidate local endocrine signaling in health and disease

Effects of Androgen Receptor and Androgen on Gene Expression in Prostate Stromal Fibroblasts and Paracrine Signaling to Prostate Cancer Cells

The androgen receptor (AR) is expressed in a subset of prostate stromal cells and functional stromal cell AR is required for normal prostate developmental and influences the growth of prostate tumors. Although we are broadly aware of the specifics of the genomic actions of AR in prostate cancer cells, relatively little is known regarding the gene targets of functional AR in prostate stromal cells. Here, we describe a novel human prostate stromal cell model that enabled us to study the effects of AR on gene expression in these cells. The model involves a genetically manipulated variant of immortalized human WPMY-1 prostate stromal cells that overexpresses wildtype AR (WPMY-AR) at a level comparable to LNCaP cells and is responsive to dihydrotestosterone (DHT) stimulation. Use of WPMY-AR cells for gene expression profiling showed that the presence of AR, even in the absence of DHT, significantly altered the gene expression pattern of the cells compared to control (WPMY-Vec) cells. Treatment of WPMY-AR cells, but not WPMY-Vec control cells, with DHT resulted in further changes that affected the expression of 141 genes by 2-fold or greater compared to vehicle treated WPMY-AR cells. Remarkably, DHT significantly downregulated more genes than were upregulated but many of these changes reversed the initial effects of AR overexpression alone on individual genes. The genes most highly effected by DHT treatment were categorized based upon their role in cancer pathways or in cell signaling pathways (transforming growth factor-β, Wnt, Hedgehog and MAP Kinase) thought to be involved in stromal-epithelial crosstalk during prostate or prostate cancer development. DHT treatment of WPMY-AR cells was also sufficient to alter their paracrine potential for prostate cancer cells as conditioned medium from DHT-treated WPMY-AR significantly increased growth of LNCaP cells compared to DHT-treated WPMY-Vec cell conditioned medium

Relative adrenal insufficiency in mice deficient in 5α-reductase 1

Patients with critical illness or hepatic failure exhibit impaired cortisol responses to ACTH, a phenomenon known as ‘relative adrenal insufficiency’. A putative mechanism is that elevated bile acids inhibit inactivation of cortisol in liver by 5α-reductases type 1 and type 2 and 5β-reductase, resulting in compensatory downregulation of the hypothalamic–pituitary–adrenal axis and adrenocortical atrophy. To test the hypothesis that impaired glucocorticoid clearance can cause relative adrenal insufficiency, we investigated the consequences of 5α-reductase type 1 deficiency in mice. In adrenalectomised male mice with targeted disruption of 5α-reductase type 1, clearance of corticosterone was lower after acute or chronic (eightfold, P<0.05) administration, compared with WT control mice. In intact 5α-reductase-deficient male mice, although resting plasma corticosterone levels were maintained, corticosterone responses were impaired after ACTH administration (26% lower, P<0.05), handling stress (2.5-fold lower, P<0.05) and restraint stress (43% lower, P<0.05) compared with WT mice. mRNA levels of Nr3c1 (glucocorticoid receptor), Crh and Avp in pituitary or hypothalamus were altered, consistent with enhanced negative feedback. These findings confirm that impaired peripheral clearance of glucocorticoids can cause ‘relative adrenal insufficiency’ in mice, an observation with important implications for patients with critical illness or hepatic failure, and for patients receiving 5α-reductase inhibitors for prostatic disease

Sex Hormones and Cognitive Functioning of Women

U radu se raspravlja o organizirajućim i aktivirajućim učincima spolnih hormona te o njihovu utjecaju na kognitivno funkcioniranje. Dosadašnja su istraživanja pokazala spolne razlike u nekim specifičnim kognitivnim sposobnostima. Žene su u prosjeku bolje u verbalnoj fl uentnosti, perceptivnoj brzini i točnosti, kao i finijoj motorici, dok su muškarci u prosjeku bolji u prostornim i matematičkim sposobnostima. Ove razlike u kognitivnom funkcioniranju dovode se u vezu s izlaganjem mozga fetusa različitim razinama spolnih hormona tijekom prenatalnog života. Studije na skupinama rođenim s genskim poremećajima, kao što su sindrom neosjetljivosti na androgene, kongenitalna adrenalna hiperplazija i Turnerov sindrom također upućuju na organizirajuće učinke spolnih hormona na kognitivno funkcioniranje. Nadalje, dosadašnja istraživanja pokazuju da povišene razine ženskih spolnih hormona u kasnoj folikularnoj i/ili lutealnoj fazi menstrualnog ciklusa potenciraju tipičan ženski kognitivni obrazac funkcioniranja, koji karakterizira veća učinkovitost u zadacima koje u prosjeku bolje rješavaju žene. Niske pak razine ovih hormona, koje karakteriziraju menstrualnu fazu ciklusa, potenciraju tipičan muški obrazac funkcioniranja, koji uključuje bolju učinkovitost u zadacima koje u prosjeku bolje rješavaju muškarci. U radu se također raspravlja o metodološkim razlikama u dosadašnjim istraživanjima organizirajućih i aktivirajućih učinaka spolnih hormona na kognitivno funkcioniranje, kao i o smjernicama za buduća istraživanja.This paper discusses the organisational and activational effects of sex hormones, and their infl uence on cognitive functioning. Previous studies have shown gender differences in specifi c cognitive abilities. Women generally show an advantage in verbal fl uency, perceptual speed and accuracy, as well as in fi ne motor skills, while men generally show an advantage in spatial and mathematical abilities. These differences in cognitive functioning are thought to occur as a result of foetal brain exposure to different levels of sex hormones during prenatal life. Additional evidence of organisational effects of sex hormones on cognitive functioning also comes from studies of subjects with genetic disorders, such as androgen insensitivity syndrome, congenital adrenal hyperplasia, and Tyrner syndrome. Furthermore, former investigations have shown that increase in female sex hormone in the late follicular and/or luteal phase of the menstrual cycle intensifi es the typical female cognitive pattern of functioning with improved effi ciency in tasks which are usually better performed by women. At the same time, low levels of such hormones that characterise the menstrual phase of the cycle intensify the typical male cognitive pattern of functioning with better effi ciency in tasks which usually better performed by men. This paper also points to methodological differences between investigations of organizational and activational effects of sex hormones on cognitive functioning, as well a to the direction of future investigations

Phaeochromocytoma and functioning paraganglioma in childhood and adolescence: role of iodine 131 metaiodobenzylguanidine

Phaeochromocytomas and functioning paragangliomas are rare tumours in childhood and adolescence. We review our experience of 43 cases (24 men, 19 women) who were first diagnosed at the age of ⩽ 18 years. All patients were evaluated at some point in their illness with iodine 131 metaiodobenzylguanidine ( 131 I-mIBG) scintigraphy. Eight patients (19%) had bilateral adrenal tumours, 12 (28%) had solitary extra-adrenal tumours, and 8 (19%) had multiple tumours. In 10 patients (23%), the tumours were associated with a familial neurocristopathic syndrome. Thirteen of 24 (54%) unifocal tumours which were initially considered to be benign ultimately proved to be multi-focal and/or malignant. The final prevalence of malignancy was 60% − 26 patients, of whom only 15 (57%) had obviously malignant tumours at the time of diagnosis. Primary tumour size ⋝5 cm was more commonly associated with a malignant course in adrenal but not extra-adrenal tumours. No other clinical, biochemical or morphological characteristic was significantly associated with malignancy. Although the high prevalence of malignancy in this series at least partly reflects referral bias, the need for lifelong follow-up of these patients is underscored. 131 I-mIBG scintigraphy was positive in 36 patients (84%), with a somewhat lower false-negative rate (12%) than X-ray computed tomography (20%). Eight patients with malignant tumours received therapeutic doses of 131 I-mIBG, with partial tumour responses in 3. Thus, 131 I-mIBG is an efficacious, non-invasive, localising agent and may be considered as a palliative therapeutic agent when alternatives have failed.Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/46831/1/259_2005_Article_BF02262730.pd

Current understanding of hypospadias: relevance of animal models

Hypospadias is a congenital abnormality of the penile urethra with an incidence of approximately 1:200-1:300 male births, which has doubled over the past three decades. The aetiology of the overwhelming majority of hypospadias remains unknown but appears to be a combination of genetic susceptibility and prenatal exposure to endocrine disruptors. Reliable animal models of hypospadias are required for better understanding of the mechanisms of normal penile urethral formation and hence hypospadias. Mice and/or rats are generally used for experimental modelling of hypospadias, however these do not fully reflect the human condition. To use these models successfully, researchers must understand the similarities and differences between mouse, rat and human penile anatomy as well as the normal morphogenetic mechanisms of penile development in these species. Despite some important differences, numerous features of animal and human hypospadias are shared: the prevalence of distal penile malformations; disruption of the urethral meatus; disruption of urethra-associated erectile bodies; and a common mechanism of impaired epithelial fusion events. Rat and mouse models of hypospadias are crucial to our understanding of hypospadias to ultimately reduce its incidence through better preventive strategies