First-generation neuronal precursors in the crayfish brain are not self-renewing

Adult-born neurons in crayfish (Procambarus clarkii) are the progeny of 1st-generation precursor cells (functionally analogous to neuronal stem cells in vertebrates) that are located in a neurogenic niche on the ventral surface of the brain. The daughters of these precursor cells migrate along the processes of bipolar niche cells to proliferation zones in the cell clusters where the somata of the olfactory interneurons reside. Here they divide again, producing offspring that differentiate into olfactory local and projection neurons. The features of this neuronal assembly line, and the fact that it continues to function when the brain is isolated and perfused or maintained in organotypic culture, provide opportunities unavailable in other organisms to explore the sequence of cellular and molecular events leading to the production of new neurons in adult brains. Further, we have determined that the 1st-generation precursor cells are not a self-renewing population, and that the niche is, nevertheless, not depleted as the animals grow and age. We conclude, therefore, that the niche is not a closed system and that there must be an extrinsic source of neuronal stem cells. Based on in vitro studies demonstrating that cells extracted from the hemolymph are attracted to the niche, as well as the intimate relationship between the niche and vasculature, we hypothesize that the hematopoietic system is a likely source of these cells.     

Effects of prenatal ethanol exposure on hypothalamic-pituitary-adrenal responses to chronic cold stress in rats

Animals prenatally exposed to ethanol typically exhibit hypothalamic-pituitary-adrenal (HPA) hyperresponsiveness to stressors. In contrast to previous studies that have investigated effects of prenatal ethanol exposure on HPA responses to acute or intermittent stressors, our study investigated HPA responses to a chronic continuous stressor, cold stress (4 degrees C for 0, 1, or 3 days). We tested the hypothesis that prenatal ethanol exposure would result in increased plasma corticosterone (CORT) and adrenocorticotropin (ACTH) responses and increased peptide [corticotropin-releasing factor and vasopressin] mRNA levels in the paraventricular nucleus (PVN) of the hypothalamus compared to that in control animals. In addition, CORT and ACTH responses were measured after exposure to an acute stressor (i.p. isotonic saline injection), superimposed during chronic cold exposure, to examine possible sensitization of the HPA response to the acute stress. Thus, blood samples were collected at the end of each of the three periods of cold exposure, either before (0 min) or 15 min after acute stress. The subjects were adult male and female Sprague-Dawley rat offspring from prenatal ethanol (E), pair-fed (PF), and ad libitum-fed control (C) treatment groups. Exposure to cold stress resulted in significant body weight loss in E males at 1 day and in both males and females of all prenatal treatment groups by 3 days of cold stress. Males in all prenatal groups also exhibited significant increases in adrenal weight:body weight ratios. Cold stress alone (0 min condition) increased CORT levels in E males and overall ACTH levels in E males and females compared to controls. ACTH levels were also higher overall in E compared to control males after acute stress (15 min condition). Sensitization of the CORT response to acute stress was observed in males but not females across all prenatal treatment groups. Corticotropin-releasing factor and vasopressin mRNA levels in the PVN were not significantly affected by prenatal treatment or chronic cold stress in either males or females. In contrast, both males and females displayed increases in PVN thyrotropin-releasing hormone (TRH) mRNA levels after cold stress. These data support and extend previous work demonstrating differential effects of prenatal ethanol exposure on HPA responsiveness of male and female offspring, and suggest that E males may be more vulnerable to the effects of chronic cold stress than E females.     

Corrosion Behavior of Ultrafine-Grained CoCrFeMnNi High-Entropy Alloys Fabricated by High-Pressure Torsion

The influence of the nanocrystalline structure produced by severe plastic deformation (SPD) on the corrosion behavior of CoCrFeMnNi alloys with Cr contents ranging from 0 to 20 at.% was investigated in aqueous 0.5 M H₂SO₄ and 3.5% NaCl solutions. The resistance to general corrosion and pitting became higher in both the solutions, with higher passivation capability observed with increasing Cr content, and it is believed that the high corrosion resistance of CoCrFeMnNi alloys can be attributed to the incorporation of the Cr element. However, the impact of the nanocrystalline structure produced by SPD on the corrosion behavior was negligibly small. This is inconsistent with reports on nanocrystalline binary Fe–Cr alloys and stainless steels processed by SPD, where grain refinement by SPD results in higher corrosion resistance. The small change in the corrosion behavior with respect to grain refinement is discussed, based on the passivation process of Fe–Cr alloys and on the influence of the core effects of HEAs on the passivation process.     

Purification and Immunity Analysis of Recombinant 6His-HPT Protein Expressed in E.coli

INTRODUCTION Selective marker genes are important for the production of genetically modified organisms (GMOs), and they are essential for the selection of modified cells at relatively low frequencies[1]. Marker genes are used to 搕ag?genes of interest and comprise several classes. Antibiotic resistance gene is one of the most commonly used markers in the modification process. The enzyme Hygromycin B Phosphotransferas (HPT) is a widely used selective marker in various animal a…     

Alterations in endocrine responses in male Sprague-Dawley rats following oral administration of methyl tert-butyl ether.

Methyl tert-butyl ether (MTBE) is an oxygenated fuel additive used to decrease carbon monoxide emissions during combustion. MTBE is a nongenotoxic chemical that induces Leydig cell tumors (LCT) in male rats. The mechanism of MTBE-induced LCT is not known; however, LCT induced by other nongenotoxic chemicals have been associated with the disruption of the hypothalamus-pituitary-testicular (HPT) axis. The objective of this study was to determine whether MTBE functions as an endocrine-active compound by affecting levels of specific hormones involved in the maintenance of the HPT axis. Nine-week-old male Sprague-Dawley rats were administered MTBE by gavage at 0, 250, 500, 1000, or 1500 mg MTBE/kg/day for 15 or 28 consecutive days and sacrificed 1 h following the last dose. Relative testis weights were increased only in high-dose animals treated for 28 days, and no testicular lesions were observed at any dose level. Adrenal gland, liver, and kidney weights were also increased. Histologic changes included protein droplet nephropathy of the kidney and centrilobular hypertrophy of the liver. Interstitial fluid and serum testosterone levels as well as serum prolactin levels were decreased only in animals treated with 1500 mg MTBE/kg/day for 15 days. At 28 days, serum triiodothyronine (T3) was significantly decreased at 1000 and 1500 mg MTBE/kg/day compared to control animals, and a decrease in serum luteinizing hormone and dihydrotestosterone was observed at 1500 mg MTBE/kg/day. These results indicate that MTBE causes mild perturbations in T3 and prolactin; however, the changes in testosterone and LH levels did not fit the pattern caused by known Leydig cell tumorigens.     

VEEG＋HPT在儿童癔病诊断与治疗中的应用价值

目的探讨暗示诱发实验（HPT）在儿童癔病鉴别诊断及治疗中的应用价值。方法对41例疑为癔病的患儿进行视频脑电图（VEEG）检查及暗示诱发实验,在脑电图检查同时用＂暗示法＂诱发其临床＂发作＂并给予暗示性治疗。结果 VEEG仅1例为轻度异常,其余40例均正常;HPT阳性37例,阴性4例,HPT阳性率91.5%;暗示诱发引起明显＂发作＂并成功终止20例,原有症状暗示后成功终止17例;37例HPT阳性患儿均最终达到症状明显缓解及治愈的目的 ,同时初步排除癫痫。结论 VEEG＋HPT对于儿童癔病可提供诊断及鉴别诊断依据,并有一定治疗作用,临床实用价值较高。     

Central representation of cold-evoked pain relief in capsaicin induced pain: an event-related fMRI study

The termination of an unpleasant or painful somatic condition can produce a rewarding sense of relief, even if the stimulus that causes the termination is itself unpleasant or painful under normal circumstances. We aimed to identify central neural mechanisms of pain relief from capsaicin-elicited heat-hyperalgesia by administering cold stimuli. We hypothesized that cooling might facilitate endogenous descending inhibitory mechanisms. We compared intraindividual neural responses of 15 healthy male volunteers to cold (20, 0 degrees C), intermediate (30 degrees C) and heat stimuli (43 degrees C) on untreated vs. capsaicin-treated skin using event-related fMRI in a 2 x 4 factorial design. Thermal stimuli were applied at the right hand in two separate imaging sessions using a Peltier-element. Psychophysical ratings of the perceived valence and intensity (VAS: 1-100) were obtained after each stimulus. The 43 degrees C-stimulus was perceived as excessively painful on capsaicin-treated skin as opposed to an unpleasant sensation on normal skin. In contrast, the 0 degrees C-stimulus was perceived unpleasant when applied on untreated skin while subjects rated the same stimulus pleasant in the capsaicin-treated condition. When neural responses to the 0 degrees C-stimulus were compared between the untreated and capsaicin-treated skin condition there were stronger BOLD-responses in prefrontal cortex (PFC) and periaqueductal grey (PAG) which correlated with increasing perceived pleasantness (VAS). Based on a connectivity analysis which identified cold-dependent contributions of PFC activity with PAG in heat-hyperalgesia we propose that cold-induced pain relief partly results from activation of endogenous descending inhibition of nociception. The data illustrate that perception of nociceptive input may largely be determined by competing aversive-appetitive motivational states.     

PT,FII及HPT在肝脏疾病应用中的评价

本文就FH、DCL、CAH、CPH和PHC五个病种77例肝病患者,同时检测的PT、PⅡ:C、FⅡ:Ag、HPT四项试验进行敏感性、准确性、实用性方面的评价。用于肝病患者,敏感性HPT>FⅡ>PT;准确性FⅡ:Ag>FⅡ:C>HPT、PT;实用性HPT、FⅡ>PT     

The Hypothalamic-Pituitary-Thyroid (HPT) Axis in Birds and Its Role in Bird Development and Reproduction

This article reviews thyroid function and its hypothalamic-pituitary-thyroid (HPT) axis control in birds with emphasis on the similarities and differences in thyroid function compared to mammals and other vertebrate classes. Thyroid hormones are important in metabolism and the thermogenesis required for homeothermy in birds, as in mammals, the other homeothermic class of vertebrates. Thyroid hormones play important roles in development and growth in birds, as is the case for all vertebrate classes. The developmental effects of thyroid hormones in birds are presented in the context of differences in precocial and altricial patterns of development and growth with emphasis on oviparous development. The sections on thyroid hormone actions include discussion of effects on the development of a number of tissue types as well as on seasonal organismal processes and interactions of the thyroid axis with reproduction. The current picture of how environmental chemicals may disrupt avian thyroid function is relatively limited and is presented in the context of the assessment endpoints that have been used to date. These endpoints are categorized as thyroid and HPT axis endpoints versus target organ endpoints. The final section discusses two recommended assay protocols, the avian two-generation toxicity assay and the avian one-generation assay, and whether these protocols can evaluate thyroid disruption in birds.