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991.
Brian C. W. Kot Michael T. C. Ying Fiona M. Brook Reimi E. Kinoshita David Kane Winson K. Chan 《Marine Mammal Science》2012,28(4):733-750
Thyroid morphology and function are likely affected by the cyclic hormonal environment during different reproductive events in females. The present study was undertaken to evaluate the variation of thyroid morphology at different reproductive events (anestrus, estrus, lactation, and pregnancy) in a captive group of Indo‐Pacific bottlenose dolphins (Tursiops aduncus) measured using sonography. Sonographic examinations of the thyroid gland and ovaries in nine sexually mature female subjects were performed weekly for 2.5 yr. A generalized linear mixed model was used to estimate the effects of the reproductive events for thyroid volume. Reproductive event was found to be a significant predictor for thyroid volume measurement and significant variation in thyroid volume was found between different reproductive events. A significantly larger thyroid volume in lactating females was observed when compared with estrous and anestrous females, possibly due to the high energy requirements and milk production during lactation. Taken together, thyroid volume variation during different reproductive events in female dolphins should be considered so as to obtain a diagnostically meaningful assessment when conducting routine examinations. 相似文献
992.
Optimization of surface exposed charge-charge interactions in the native state has emerged as an effective means to enhance protein stability; but the effect of electrostatic interactions on the kinetics of protein folding is not well understood. To investigate the kinetic consequences of surface charge optimization, we characterized the folding kinetics of a Fyn SH3 domain variant containing five amino acid substitutions that was computationally designed to optimize surface charge-charge interactions. Our results demonstrate that this optimized Fyn SH3 domain is stabilized primarily through an eight-fold acceleration in the folding rate. Analyses of the constituent single amino acid substitutions indicate that the effects of optimization of charge-charge interactions on folding rate are additive. This is in contrast to the trend seen in folded state stability, and suggests that electrostatic interactions are less specific in the transition state compared to the folded state. Simulations of the transition state using a coarse-grained chain model show that native electrostatic contacts are weakly formed, thereby making the transition state conducive to nonspecific, or even nonnative, electrostatic interactions. Because folding from the unfolded state to the folding transition state for small proteins is accompanied by an increase in charge density, nonspecific electrostatic interactions, that is, generic charge density effects can have a significant contribution to the kinetics of protein folding. Thus, the interpretation of the effects of amino acid substitutions at surface charged positions may be complicated and consideration of only native-state interactions may fail to provide an adequate picture. 相似文献
993.
The 8th International Conference on Cryptococcus and Cryptococcosis, chaired by Maurizio Del Poeta (Medical University of South Carolina), and organized together with June Kwon-Chung (National Institute of Allergy and Infectious Diseases), Stuart Levitz (University of Massachusetts Medical School), and John Perfect (Duke University), occurred in May 2011. This meeting brought together the world's leading researchers on Cryptococcus and cryptococcosis, including basic scientists, epidemiologists, and clinicians, to discuss new developments in Cryptococcus biology. With more than 60 oral presentations and 180 posters, this meeting enhanced our understanding of pathogenicity of Cryptococcus and served as a robust forum that facilitated cross-disciplinary discussions, research, and clinical collaborations. Due to space constraints, this brief overview highlights only a few of the topics discussed in this meeting, focusing on the evolution of virulence, host and pathogen interactions, fungal and host signaling, new advances of genomics studies on Cryptococcus, and the current status of the outbreak caused by C. gattii. The 8th International Conference on Cryptococcus and Cryptococcosis brought together scientists from across the globe in the beautiful historical downtown setting of Charleston to share their latest findings and highlight advances in Cryptococcus research. With more than 250 participants, this meeting was the largest gathering of the Cryptococcus international community in the 24-year history. Here, we review the advances presented and the current state of knowledge in the field. 相似文献
994.
"In addition to its well-established neurotrophic effects, brain-derived neurotrophic factor (BDNF) has also been shown to regulate glucose metabolism. The present study was conducted to determine whether BDNF has effects on baroreflex sensitivity (BRS) and whole-body insulin sensitivity through modulation of autonomic nervous function in normal rats. Male Sprague-Dawley rats were treated with intracerebroventricular BDNF (20 μg per rat, 10μl; BDNF) or artificial cerebrospinal fluid (10 μl; control) at an infusion rate of 1 μl/min in conscious state. The whole-body insulin sensitivity was determined by the euglycemic hyperinsulinemic clamp technique. BRS in response to phenylephrine (PE-BRS) or sodium nitroprusside (NP-BRS) was assessed using linear regression analysis. The sympathetic and parasympathetic influences on BRS were investigated by pharmacological autonomic blockade. When compared to the control rats, blood glucose levels were slightly but significantly decreased in BDNF-treated rats. However, plasma insulin levels were reduced by about 30%. The whole-body insulin sensitivity was increased in BDNF-treated rats. In addition, blood pressure was increased but heart rate remained unchanged after BDNF treatment. Enhanced PE-BRS was also observed in the BDNF-treated rats, which was attributed to the abnormal parasympathetic activation as revealed by the results of the pharmacological blockade study with methylatropine. Results of the present demonstrate that central BDNF plays an important role in the regulation of whole-body insulin sensitivity and baroreflex function. The data indicate that the alteration of autonomic nervous function may play a role in the effects of BDNF." 相似文献
995.
Chen LL Chen X Choi H Sang H Chen LC Zhang H Gouw L Andtbacka RH Chan BK Rodesch CK Jimenez A Cano P Jones KA Oyedeji CO Martins T Hill HR Schumacher J Willmore C Scaife CL Ward JH Morton K Lor Randall R Lazar AJ Patel S Trent JC Frazier ML Lin P Jensen P Benjamin RS 《Cancer immunology, immunotherapy : CII》2012,61(7):1113-1124
Cancer survivors often relapse due to evolving drug-resistant clones and repopulating tumor stem cells. Our preclinical study demonstrated that terminal cancer patient's lymphocytes can be converted from tolerant bystanders in vivo into effective cytotoxic T-lymphocytes in vitro killing patient's own tumor cells containing drug-resistant clones and tumor stem cells. We designed a clinical trial combining peginterferon α-2b with imatinib for treatment of stage III/IV gastrointestinal stromal tumor (GIST) with the rational that peginterferon α-2b serves as danger signals to promote antitumor immunity while imatinib's effective tumor killing undermines tumor-induced tolerance and supply tumor-specific antigens in vivo without leukopenia, thus allowing for proper dendritic cell and cytotoxic T-lymphocyte differentiation toward Th1 response. Interim analysis of eight patients demonstrated significant induction of IFN-γ-producing-CD8(+), -CD4(+), -NK cell, and IFN-γ-producing-tumor-infiltrating-lymphocytes, signifying significant Th1 response and NK cell activation. After a median follow-up of 3.6 years, complete response (CR) + partial response (PR) = 100%, overall survival = 100%, one patient died of unrelated illness while in remission, six of seven evaluable patients are either in continuing PR/CR (5 patients) or have progression-free survival (PFS, 1 patient) exceeding the upper limit of the 95% confidence level of the genotype-specific-PFS of the phase III imatinib-monotherapy (CALGB150105/SWOGS0033), demonstrating highly promising clinical outcomes. The current trial is closed in preparation for a larger future trial. We conclude that combination of targeted therapy and immunotherapy is safe and induced significant Th1 response and NK cell activation and demonstrated highly promising clinical efficacy in GIST, thus warranting development in other tumor types. 相似文献
996.
Growth of new dendritic spines contributes to experience-dependent circuit plasticity in the cerebral cortex. Yet the signaling mechanisms leading to?new spine outgrowth remain poorly defined. Increasing evidence supports that the proteasome is an important mediator of activity-dependent neuronal signaling. We therefore tested the role of the proteasome in activity-dependent spinogenesis. Using pharmacological manipulations, glutamate uncaging, and two-photon imaging of GFP-transfected hippocampal pyramidal neurons, we demonstrate that acute inhibition of the proteasome blocks activity-induced spine outgrowth. Remarkably, mutation of serine 120 to alanine of the Rpt6 proteasomal subunit in individual neurons was sufficient to block activity-induced spine outgrowth. Signaling through NMDA receptors and CaMKII, but not PKA, is required to facilitate spine outgrowth. Moreover, abrogating CaMKII binding to the NMDA receptor abolished activity-induced spinogenesis. Our data support a model in which neural activity facilitates spine outgrowth via an NMDA receptor- and CaMKII-dependent increase in local proteasomal degradation. 相似文献
997.
Endocytosis and endosomal trafficking play a multitude of roles in cellular function beyond regulating entry of essential nutrients. In this review, we discuss the cell biological principles of endosomal trafficking, the neuronal adaptations to endosomal organization, and the role of endosomal trafficking in neural development. In particular, we consider how cell fate decisions, polarity, migration, and axon outgrowth and guidance are influenced by five endosomal tricks: dynamic modulation of receptor levels by endocytosis and recycling, cargo-specific responses via cargo-specific endocytic regulators, cell-type-specific endocytic regulation, ligand-specific endocytic regulation, and endosomal regulation of ligand processing and trafficking. 相似文献
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