Upregulation of interferon-induced indoleamine 2,3-dioxygenase in human macrophage cultures by lipopolysaccharide, muramyl tripeptide, and interleukin-1

The tryptophan decyclizing enzyme indoleamine 2,3-dioxygenase (IDO) was induced in human monocyte-derived macrophages (MDM) treated with human recombinant interferon-β (IFN-β) or interferon-γ (IFN-γ). Treated cells exhibited dose-dependent increases in IDO when assayed 48 hr after treatment. Cells exposed to IFN-γ were observed to exhibit consistently higher peak levels of IDO when compared with cells incubated in the presence of IFN-β. When IFN-β-treated cells were incubated in the presence of specified amounts of bacterial lipopolysaccharide (LPS) or liposome-encapsulated muramyl tripeptide (MTP), peak IDO activity increased such that enzyme activity was comparable to maximal activity observed with IFN-γ-treated cells. LPS and MTP also upregulated IFN-γ-mediated IDO activity when suboptimal amounts of IFN-γ were used. When macrophages were costimulated with various concentrations of human recombinant interleukin 1α (IL-1α), along with either maximum-stimulating amounts of IFN-β or suboptimal amounts of IFN-γ, IDO activity was upregulated in a manner similar to results obtained using the microbial products as stimuli. While neither IL-1α or IL-1β was detected in culture supernatants from macrophages treated with either LPS or MTP (alone or in combination with IFN), IL-1α was detected in cell lysates of macrophages treated with these upregulators. Although neutralizing antibody to IL-1α abolished the upregulatory effect of exogenous IL-1α, it had no effect on upregulation by LPS or MTP. This suggests that although LPS and MTP may induce production of cell-associated IL-1α, upregulation of IDO activity by these agents is independent of IL-1α production and may be mediated through distinct pathways.     

Campylobacter insulaenigrae Isolates from Northern Elephant Seals (Mirounga angustirostris) in California

There are only two reports in the literature demonstrating the presence of Campylobacter spp. in marine mammals. One report describes the isolation of a new species, Campylobacter insulaenigrae sp. nov., from three harbor seals (Phoca vitulina) and a harbor porpoise (Phocoena phocoena) in Scotland, and the other describes the isolation of Campylobacter jejuni, Campylobacter lari, and an unknown Campylobacter species from northern elephant seals (Mirounga angustirostris) in California. In this study, 72 presumptive C. lari and unknown Campylobacter species strains were characterized using standard phenotypic methods, 16S rRNA PCR, and multilocus sequence typing (MLST). Phenotypic characterization of these isolates showed them to be variable in their ability to grow either at 42°C or on agar containing 1% glycine and in their sensitivity to nalidixic acid and cephalothin. Based on both 16S rRNA PCR and MLST, all but 1 of the 72 isolates were C. insulaenigrae, with one isolate being similar to but distinct from both Campylobacter upsaliensis and Campylobacter helveticus. Phylogenetic analysis identified two C. insulaenigrae clades: the primary clade, containing exclusively California strains, and a secondary clade, containing some California strains and all of the original Scottish strains. This study demonstrates the inability of phenotypic characterization to correctly identify all Campylobacter species and emphasizes the importance of molecular characterization via 16S rRNA sequence analysis or MLST for the identification of Campylobacter isolates from marine mammals.     

Bioclimatic transect networks: Powerful observatories of ecological change

Transects that traverse substantial climate gradients are important tools for climate change research and allow questions on the extent to which phenotypic variation associates with climate, the link between climate and species distributions, and variation in sensitivity to climate change among biomes to be addressed. However, the potential limitations of individual transect studies have recently been highlighted. Here, we argue that replicating and networking transects, along with the introduction of experimental treatments, addresses these concerns. Transect networks provide cost‐effective and robust insights into ecological and evolutionary adaptation and improve forecasting of ecosystem change. We draw on the experience and research facilitated by the Australian Transect Network to demonstrate our case, with examples, to clarify how population‐ and community‐level studies can be integrated with observations from multiple transects, manipulative experiments, genomics, and ecological modeling to gain novel insights into how species and systems respond to climate change. This integration can provide a spatiotemporal understanding of past and future climate‐induced changes, which will inform effective management actions for promoting biodiversity resilience.     

Bioerosion caused by foraging of the tropical chiton Acanthopleura gemmata at One Tree Reef, southern Great Barrier Reef

The bioerosive potential of the intertidal chiton Acanthopleura gemmata on One Tree Reef was determined by quantification of CaCO₃ in daily faecal pellet production of individuals transplanted into mesocosms after nocturnal-feeding forays. Mean bioerosive potential was estimated at 0.16 kg CaCO₃ chiton⁻¹ yr⁻¹. Bioerosion rates were estimated for populations on two distinct chiton habitats, reef margin (0.013 kg CaCO₃ m⁻² yr⁻¹) and beachrock platform (0.25 kg CaCO₃ m⁻² yr⁻¹). Chiton density on the platform was orders of magnitude greater than on the reef margin. The surface-lowering rate (0.16 mm m⁻² yr) due to bioerosion by the beachrock population is a substantial contribution to the total surface-lowering rate of 2 mm m⁻² yr⁻¹ previously reported for One Tree Reef across all erosive agents. At high densities, the contribution of A. gemmata to coral reef bioerosion budgets may be comparable to other important bioeroders such as echinoids and fish.     

The Escherichia coli twin-arginine translocation apparatus incorporates a distinct form of TatABC complex, spectrum of modular TatA complexes and minor TatAB complex

The Tat system transports folded proteins across bacterial plasma and plant thylakoid membranes. To date, three key Tat subunits have been identified and mechanistic studies indicate the presence of two types of complex: a TatBC-containing substrate-binding unit and a separate TatA complex. Here, we used blue-native gel electrophoresis and affinity purification to study the nature of these complexes in Escherichia coli. Analysis of solubilized membrane shows that the bulk of TatB and essentially all of the TatC is found in a single 370kDa TatABC complex. TatABC was purified to homogeneity using an affinity tag on TatC and this complex runs apparently as an identical band. We conclude that this is the primary core complex, predicted to contain six or seven copies of TatBC together with a similar number of TatA subunits. However, the data indicate the presence of an additional form of Tat complex containing TatA and TatB, but not TatC; we speculate that this may be an assembly or disassembly intermediate of the translocator. The vast majority of TatA is found in separate complexes that migrate in blue-native gels as a striking ladder of bands with sizes ranging from under 100 kDa to over 500 kDa. Further analysis shows that the bands differ by an average of 34 kDa, indicating that TatA complexes are built largely, but possibly not exclusively, from modules of three or four TatA molecules. The range and nature of these complexes are similar in a TatC mutant that is totally inactive, indicating that the ladder of bands does not stem from ongoing translocation activity, and we show that purified TatA can self-assemble in vitro to form similar complexes. This spectrum of TatA complexes may provide the flexibility required to generate a translocon capable of transporting substrates of varying sizes across the plasma membrane in a folded state.     

Opioidergic control of luteinizing hormone secretion in the female rabbit: influence of age on the response to naloxone

To examine the role of opioid neurons on luteinizing hormone (LH) secretion in the female rabbit, we determined LH release at timed intervals after naloxone administration to rabbits aged 25-150 days. The LH response to naloxone (10 mg/kg) was not significantly elevated until day 43 when LH rose 76-113% above basal levels at 40-80 min. In 56-day-old females the corresponding increase was 160% at 15 min and in 65- to 67-day-olds it was 154%. From 70 to 80 days of age the LH response was blunted and no significant elevations could be elicited. By contrast, naloxone-induced LH increases were again evident when rabbits were older than 100 days. At all ages no significant change in FSH concentrations was observed. In the adult females, naloxone at 2.5, 5, and 10 mg/kg caused increases in LH secretion which occasionally were high enough to induce ovulation as exemplified by elevated serum progesterone 4 days later. These data suggest that opioid peptides may be involved in the prepubertal rise in LH and in the normal inhibition of adult secretion in the female rabbit.     

Persistent chlamydiae: from cell culture to a paradigm for chlamydial pathogenesis.

Chlamydiae are medically important bacteria responsible for a wide range of human infections and diseases. Repeated episodes of infection promote chronic inflammation associated with detrimental immune system-mediated pathologic changes. However, the true nature of chlamydial pathogenesis may encompass repeated infection superimposed upon persistent infection, which would allow for heightened immune reactivity. During the course of chlamydial infection, numerous host elaborated factors with inhibitory or modifying effects may cause alterations in the chlamydia-host cell relationship such that the organism is maintained in a nonproductive stage of growth. Abnormal or persistent chlamydiae have been recognized under a variety of cell culture systems. The numerous factors associated with altered growth suggest an innate flexibility in the developmental cycle of chlamydiae. This review evaluates in vitro studies of chlamydial persistence and correlates these model systems to features of natural chlamydial disease.     

Comprehensive RNAA of cadmium,cobalt, nickel,and copper using109Cd,57Co,and reactor-produced67Cu as radioisotopic yield monitors

An existing radiochemical NAA procedure for Cd, Co, and Cu was improved to allow determination of individual radiochemical yields by the radioisotopic tracer technique, thus eliminating errors owing to variable recovery.¹⁰⁹Cd was used as tracer for Cd determination via¹¹⁵Cd/^115mIn,⁵⁷Co for Co via⁶⁰Co, and potentially for Ni via⁵⁸Co, whereas as a novelty⁶⁷Cu, produced by reactor irradiation of ZnO of natural isotopic composition (by the⁶⁷Zn [n,p]⁶⁷Cu reaction) was used for Cu via the indicator nuclide⁶⁴Cu. The simple production and purification of⁶⁷Cu by anion exchange is described. Results for biological RMs are given and discussed.