Retrospective study of morbidity and mortality of raptors admitted to Colorado State University Veterinary Teaching Hospital during 1995 to 1998

A retrospective study was conducted to identify causes of morbidity and mortality of free-living raptors in northeast Colorado and the surrounding areas of Nebraska and Wyoming. The study included 409 raptors, representing 23 species, admitted to the Colorado State University Veterinary Teaching Hospital, Fort Collins, Colorado, USA, from 1995 to 1998. Causes of morbidity and mortality were identified as trauma (66.3%), orphaned young (15.6%), unknown (9.0%), infectious disease (4.4%), metabolic and nutritional disease (2.2%), toxicosis (2.0%), and degenerative disease (0.5%). Trauma was the most frequent cause of morbidity and mortality for all species and during all seasons.     

Regulation of TRAF2 signaling by self-induced degradation

Receptors belonging to the tumor necrosis factor receptor (TNF-R) family utilize cytoplasmic adapter proteins called TNF-R-associated factors (TRAFs) as key elements in their signaling pathways. However, it is not yet clear how individual TRAFs regulate signaling by this large and growing receptor family. Signaling via the TNF-R family member CD40 has recently been shown to result in recruitment of TRAF2 to plasma membrane detergent-resistant microdomains (lipid rafts) as well as to subsequently initiate TRAF2 degradation. As TRAF2 associates with most members of the TNF-R family, we wished to determine how this degradation occurs. We show here that CD40-mediated TRAF2 degradation requires the zinc-binding RING domain of TRAF2 and is preceded by TRAF2 ubiquitination, suggesting that the TRAF2 RING may promote ubiquitination although the RING itself is not a target of ubiquitination. Several approaches show that ubiquitination and proteasomal activity are integral to TRAF2 degradation, and inhibition of this process potentiates CD40 signaling.     

Interaction with GM130 during HERG ion channel trafficking. Disruption by type 2 congenital long QT syndrome mutations. Human Ether-à-go-go-Related Gene

Many mutations in the Human Ether-à-go-go-Related Gene (HERG) cause type 2 congenital long QT syndrome (LQT2) by disrupting trafficking of the HERG-encoded potassium channel. Beyond observations that some mutations trap channels in the endoplasmic reticulum, little is known about how trafficking fails. Even less is known about what checkpoints are encountered in normal trafficking. To identify protein partners encountered as HERG channels are transported among subcellular compartments, we screened a human heart library with the C terminus of HERG using yeast two-hybrid technology. Among the proteins isolated was GM130, a Golgi-associated protein involved in vesicular transport. The interaction mapped to two non-contiguous regions of HERG and to a region just upstream of the GRASP-65 interaction domain of GM130. GM130 did not interact with the N or C terminus of either KvLQT1 or Shaker channels. LQT2-causing mutations in the HERG C terminus selectively disrupted interactions with GM130 but not Tara, another HERG-interacting protein. Native GM130 and stably expressed HERG were co-immunoprecipitated from HEK-293 cells using GM130 antibodies. In rat cardiac myocytes and HEK-293 cells, confocal immunocytochemistry showed co-localization of GM130 and HERG to the Golgi apparatus. Overexpression of GM130 suppressed HERG current amplitude in Xenopus oocytes, as if by providing an excess of substrate at the Golgi checkpoint. These findings indicate that GM130 plays a previously undefined role in cargo transport. We propose that the cytoplasmic C terminus of HERG participates in the tethering or possibly targeting of HERG-containing vesicles within the Golgi via its interaction with GM130.     

Comparative chemical attributes of native North American hop,Humulus lupulus var. lupuloides E. Small

The genetic diversity of 159 representative genotypes of native hop (Humulus lupulus var. lupuloides E. Small, Cannabaceae) from 34 selected populations was assessed by relative magnitudes and ranges of alpha acids (AA), beta acids (BA), and the cohumulone (CoH) component of alpha acids, with reference to temporal changes between 1989-1990 and 2001, and to the same attributes in American and European hop cultivars, principally H. lupulus var. lupulus L. Chemical profiles of these genotypes were generated by high pressure liquid chromatography (HPLC) of methanol extracts from their processed samples (cones). The alpha ratio (AR, alpha acids / alpha+beta acids) measured the degree to which alpha acids predominated in cone extracts. Synchronous ranges of AR and CoH were also selected for graphic portrayals of native hop genotypic diversity. Cones sampled and analyzed from eight populations that were accessible in both 1989 and 2001 were distinct in chemical attributes, indicating a succession of genotypes, and suggesting temporal cycling of H. lupulus var.lupuloides germplasm. The principal distinctions between the two sub-species were a markedly higher proportion of CoH (38-88% vs. 19-41%) in alpha acids of H. l. var. lupuloides, and generally higher concentrations of AA in cultivars of both American and European commercial hop cultivars, predominantly H. lupulus var. lupulus. All of the 159 native hop genotypes also contained detectable levels of xanthohumol and xanthogalenol, prenylflavonoids recently reported to have mammalian anti-cancer activity. Some native genotypes had previously exhibited natural repellence of insect and mite pests; thus H. lupulus var. lupuloides germplasm offers a diverse resource of underutilized and yet undefined biochemicals.     

Short-term effects of anastrozole treatment on insulin-like growth factor system in postmenopausal advanced breast cancer patients

Insulin-like growth factors (IGFs) play a fundamental role in cancer development by acting in both an endocrinal and paracrinal manner, and hormone breast cancer treatments affect the IGF system by modifying circulating growth factor levels. We evaluated total IGF-1, IGF-2, IGF binding protein (IGFBP)-1 and IGFBP-3 in the blood of 34 postmenopausal advanced breast cancer patients (median age 63 years, range 41–85) treated with anastrozole, a non-steroidal structure aromatase inhibitor (NSS-AI). The plasma samples were obtained at baseline, and after 2, 4, 8 and 12 weeks of treatment. The IGFs were quantitated by means of sensitive radioimmunoassays (RIAs). IGF-1 significantly increased during anastrozole treatment (baseline versus 12 weeks, P=0.031), IGF-2 showed a trend towards an increase, and IGFBP-1 constantly but not significantly decreased; IGFBP-3 did not seem to be affected at all. The anastrozole-induced changes in IGFs and IGFBP-1 appeared to be different in the patients receiving a clinical benefit from those observed in non-responders. We have previously shown that letrozole (a different type of NSS-AI) modifies blood IGF-1 levels, and the results of this study of the biological effects of anastrozole on the components of the IGF system confirm our previous observations.     

Subtype-specific regulation of receptor internalization and recycling by the carboxyl-terminal domains of the human A1 and rat A3 adenosine receptors: consequences for agonist-stimulated translocation of arrestin3

In this study, we have characterized the differential effects on inhibitory adenosine receptor (AR) trafficking of disrupting predicted sites for palmitoylation and phosphorylation within each receptor's carboxyl terminus. While a Cys(302,305)Ala-mutated rat A(3)AR mutant internalizes significantly faster than the wild-type (WT) receptor in response to agonist exposure, analogous mutation of the human A(1)AR (Cys(309)Ala) had no effect on receptor internalization. Moreover, unlike the WT A(3)AR, the entire pool of internalized mutant A(3)AR is able to recycle back to the plasma membrane following agonist removal. These properties do not reflect utilization of an alternative trafficking pathway, as internalized WT and mutant A(3)ARs both accumulate into transferrin receptor-positive endosomal compartments. However, receptor accumulation into endosomes is dependent upon prior G-protein-coupled receptor kinase (GRK)-mediated phosphorylation of the receptor's carboxyl terminus, as replacement of the carboxyl-terminal domain of the human A(1)AR with the 14 GRK-phosphorylated amino acids of the rat A(3)AR confers rapid agonist-mediated endosomal accumulation of the resulting chimeric A(1)CT3AR. Sensitivity to GRK-mediated phosphorylation also dictates the distinct redistribution of arrestin3 observed upon agonist exposure. Thus, while the nonphosphorylated A(1)AR redistributes arrestin3 from the cytoplasm to punctate clusters at the plasma membrane, GRK-phosphorylated WT and Cys(302,305)Ala-mutated A(3)ARs, as well as the A(1)CT3AR chimera, each induce the redistribution of arrestin3 into punctate accumulations both at the plasma membrane and within the cytoplasm. Neither the human A(1)AR nor the rat A(3)AR colocalized with arrestin3 under basal or agonist-stimulated conditions. Together, these results demonstrate that inhibitory AR-mediated changes in arrestin3 distribution are subtype-specific, with specificity correlating with the sensitivity of the receptor's carboxyl-terminal domain to GRK phosphorylation. In the case of the rat A(3)AR, sensitivity to GRK-mediated internalization appears to be regulated in part by the integrity of putative palmitate attachment sites upstream of its GRK phosphoacceptor sites.     

In Vitro CuIture of the Tropical Sponge <Emphasis Type="Italic">Axinella corrugata</Emphasis> (Demospongiae): Effect of Food Cell Concentration on Growth,Clearance Rate,and Biosynthesis of Stevensine

In vitro culture is one possible method for supplying sponge metabolites for pharmaceutical applications, but appropriate feeding regimens that maximize both growth and metabolite biosynthesis are largely unknown. According to the natural concentration (NC) of cells 1 to 50 µm in size that are available to wild Axinella corrugata, we fed explants a multispecific diet of bacteria, microalgae, and yeast at 4 different concentrations: 1NC, 3NC, 5NC, and 5+1NC (the last consisted of 5 NC of bacteria and 1 NC of microalgae and yeast). Explants fed a 3NC diet had the best culture response, growing on average from 8.5 g to 10.3 g in 8 weeks, and showing a 110% increase in concentration (milligrams per gram of dry weight) of the antitumor compound stevensine. Stevensine production in 3NC explants, representing the total milligrams of metabolite per explant, increased by 157% over the study. Explants fed at 1NC had relatively stable weights, indicating that the diet met metabolic costs only. Explants fed at the two highest concentrations lost weight after 4 weeks, possibly because long-term high cell concentration blocked their aquiferous system, reducing their ability to feed efficiently. Stevensine production in explants fed the 1NC, 5NC, or 5+1NC diets were similar, and varied little from the initial amount. A separate experiment showed that the clearance rate for A. corrugata is similar between the examined food types and cell concentrations over 5 hours, averaging 766 ml h^–1 g DW^–1.Overall, this study demonstrates that relatively small changes in food abundance can greatly affect both sponge growth and metabolite biosynthesis. The good growth and increased production of the target metabolite stevensine for A. corrugata explants fed a 3NC diet suggests that in vitro culture is a viable method of supplying some sponge metabolites.