Evaluation of Vaccines for H5N1 Influenza Virus in Ferrets Reveals the Potential for Protective Single-Shot Immunization

As part of influenza pandemic preparedness, policy decisions need to be made about how best to utilize vaccines once they are manufactured. Since H5N1 avian influenza virus has the potential to initiate the next human pandemic, isolates of this subtype have been used for the production and testing of prepandemic vaccines. Clinical trials of such vaccines indicate that two injections of preparations containing adjuvant will be required to induce protective immunity. However, this is a working assumption based on classical serological measures only. Examined here are the dose of viral hemagglutinin (HA) and the number of inoculations required for two different H5N1 vaccines to achieve protection in ferrets after lethal H5N1 challenge. Ferrets inoculated twice with 30 μg of A/Vietnam/1194/2004 HA vaccine with AlPO₄, or with doses as low as 3.8 μg of HA with Iscomatrix (ISCOMATRIX, referred to as Iscomatrix herein, is a registered trademark of CSL Limited) adjuvant, were completely protected against death and disease after H5N1 challenge, and the protection lasted at least 15 months. Cross-clade protection was also observed with both vaccines. Significantly, complete protection against death could be achieved with only a single inoculation of H5N1 vaccine containing as little as 15 μg of HA with AlPO₄ or 3.8 μg of HA with Iscomatrix adjuvant. Ferrets vaccinated with the single-injection Iscomatrix vaccines showed fewer clinical manifestations of infection than those given AlPO₄ vaccines and remained highly active. Our data provide the first indication that in the event of a future influenza pandemic, effective mass vaccination may be achievable with a low-dose “single-shot” vaccine and provide not only increased survival but also significant reduction in disease severity.The emergence in 2004 and continued persistence of highly pathogenic H5N1 influenza A virus in bird populations is justifiably considered a potential pandemic threat (19). The virus has become endemic in many areas of the world and has demonstrated an ability to infect humans through transmission from poultry, thus far with limited human-to-human spread (26). Of great concern is that the case fatality rate for H5N1 infection of humans is reported to be >60%, compared to 0.1% for the 1957 and 1968 pandemics and 2 to 3% for the 1918 pandemic, which together resulted in at least 50 million deaths (14, 20). For these reasons, the development of strategies to minimize the impact if the virus mutates to acquire efficient human-to-human spread is essential.Vaccination is considered the best method to ultimately control an influenza pandemic and should be implemented as soon as the pandemic strain is identified and vaccines produced (9, 23). To maximize coverage, pandemic vaccines will need to be available rapidly and will have to include the minimal dose of antigen to achieve solid immunity. This poses several major problems. One is that the human population is predominantly immunologically naive to the emerging subtype of virus, and so very large numbers of people will need to be protected as quickly as possible, which will place a huge demand on vaccine supply. The use of an adjuvant to lower the dose of antigen required (8) may ameliorate this problem to some degree, but there are few adjuvants that are suitable for human use, particularly those in ready supply in the event of a pandemic. In addition, we have little understanding of what levels and what type of immunity will provide protection from death or severe disease due to H5N1 infection (19).Clinical trials with candidate H5N1 vaccines have been initiated with traditional virus preparations (egg-grown whole or detergent-disrupted “split” virions) and alternative vaccine strategies (recombinant protein, live-attenuated, and adjuvant-containing vaccines) (24). Using split virus alone, high amounts of antigen, containing 90 μg of hemagglutinin (HA), given twice, were required to elicit what is considered to be a protective antibody response in ca. 50% of subjects (25). Adjuvants, such as those based on aluminum salts (3) or the oil-in-water adjuvants MF59 (2, 17, 22) and ASO3 (13, 21), have provided considerable antigen dose reduction, but in all clinical trials and preclinical animal evaluation to date, two doses of vaccine have been required to achieve what is considered to be adequate anti-HA antibody levels or protection, respectively (8, 24).One aim of the present study was to determine how suitable the ferret model is for making assumptions about human responsiveness to influenza vaccination. To do this, we evaluated in ferrets the same H5N1 pandemic vaccines, formulated with or without AlPO₄ adjuvant, that had been examined in phase 1 and II randomized trials in healthy adults (18). We then sought to compare whether the responses to these vaccines were protective against lethal H5N1 challenge and whether the protective effects could be achieved with less antigen by using the more potent saponin-based Iscomatrix (ISCOMATRIX, referred to as Iscomatrix herein, is a registered trademark of CSL Limited) adjuvant. The Iscomatrix adjuvant has been shown to be safe and well tolerated in humans and to induce strong and long-lived antibody and cytotoxic T-cell responses in both humans and animal studies (7). Finally, the encouraging results with these adjuvants led us to examine whether protection from severe disease and death could be achieved after only a single injection of the H5N1 vaccines.     

High-Resolution Functional Profiling of a Gammaherpesvirus RTA Locus in the Context of the Viral Genome

Gammaherpesviruses Kaposi's sarcoma-associated herpesvirus and Epstein-Barr virus are associated with multiple human cancers. Our goal was to develop a quantitative, high-throughput functional profiling system to identify viral cis-elements and protein subdomains critical for virus replication in the context of the herpesvirus genome. In gamma-2 herpesviruses, the transactivating factor RTA is essential for initiation of lytic gene expression and viral reactivation. We used the RTA locus as a model to develop the functional profiling approach. The mutant murine gammaherpesvirus 68 viral library, containing 15-bp random insertions in the RTA locus, was passaged in murine fibroblast cells for multiple rounds of selection. The effect of each 15-bp insertion was characterized using fluorescent-PCR profiling. We identified 1,229 insertions in the 3,845-bp RTA locus, of which 393, 282, and 554 were critically impaired, attenuated, and tolerated, respectively, for viral growth. The functional profiling phenotypes were verified by examining several individual RTA mutant clones for transactivating function of the RTA promoter and transcomplementing function of the RTA-null virus. Thus, the profiling approach enabled us to identify several novel functional domains in the RTA locus in the context of the herpesvirus genome. Importantly, our study has demonstrated a novel system to conduct high-density functional genetic mapping. The genome-scale expansion of the genetic profiling approach will expedite the functional genomics research on herpesvirus.     

A Charged Second-Site Mutation in the Fusion Peptide Rescues Replication of a Mutant Avian Sarcoma and Leukosis Virus Lacking Critical Cysteine Residues Flanking the Internal Fusion Domain

The entry process of the avian sarcoma and leukosis virus (ASLV) family of retroviruses requires first a specific interaction between the viral surface (SU) glycoproteins and a receptor on the cell surface at a neutral pH, triggering conformational changes in the viral SU and transmembrane (TM) glycoproteins, followed by exposure to low pH to complete fusion. The ASLV TM glycoprotein has been proposed to adopt a structure similar to that of the Ebola virus GP2 protein: each contains an internal fusion peptide flanked by cysteine residues predicted to be in a disulfide bond. In a previous study, we concluded that the cysteines flanking the internal fusion peptide in ASLV TM are critical for efficient function of the ASLV viral glycoproteins in mediating entry. In this study, replication-competent ASLV mutant subgroup A [ASLV(A)] variants with these cysteine residues mutated were constructed and genetically selected for improved replication capacity in chicken fibroblasts. Viruses with single cysteine-to-serine mutations reverted to the wild-type sequence. However, viruses with both C9S and C45S (C9,45S) mutations retained both mutations and acquired a second-site mutation that significantly improved the infectivity of the genetically selected virus population. A charged-amino-acid second-site substitution in the TM internal fusion peptide at position 30 is preferred to rescue the C9,45S mutant ASLV(A). ASLV(A) envelope glycoproteins that contain the C9,45S and G30R mutations bind the Tva receptor at wild-type levels and have improved abilities to trigger conformational changes and to form stable TM oligomers compared to those of the C9,45S mutant glycoprotein.All retroviruses have envelope glycoproteins that interact with a receptor protein on the cell surface to initiate entry (18, 36). The viral glycoprotein is synthesized as a precursor polyprotein consisting of the surface (SU) glycoprotein, which contains the domains that bind with the cellular receptor, and the transmembrane (TM) glycoprotein, which tethers the protein to the viral surface and contains the domains responsible for fusion of the viral and cellular membranes (32). After synthesis, the precursor viral glycoproteins form trimers through the interaction of the TM domains. The SU and TM domains are then cleaved by a cellular protease, forming a mature, metastable complex capable of mediating viral entry. A specific receptor protein interaction with the SU domain of the mature Env is required to initiate a conformational change in the trimer, separating the globular SU domains to allow the TM glycoproteins to form a structure that projects the fusion peptide toward the target membrane. Two domains in TM, the N-terminal heptad repeat and the C-terminal heptad repeat, are critical for the formation of the extended structure (13, 31)}. The fusion peptide is thought to interact with a target membrane irreversibly, forming an extended prehairpin TM oligomer structure anchored in both the viral and target membranes (35). The cooperation of several of these extended prehairpin TM oligomer structures is most likely required to complete fusion. The viral and target membranes are brought into close proximity when the C-terminal heptad repeats fold back into grooves formed by the N-terminal heptad repeats, forming presumably the most stable TM structure, the six-helix bundle (6HB). Fusion of the membranes proceeds through the initial mixing of the outer lipid leaflets, hemifusion, followed by initial fusion pore formation, pore widening, and the completion of fusion. The 6HB may undergo some additional structural rearrangement in order to bring the fusion peptide and membrane-spanning domain of TM into close proximity to form the final trimeric hairpin structure (22, 24, 33).Until recently, the triggering of class I virus fusion proteins was thought to occur by one of two mechanisms (13, 35, 36). In one mechanism, the viral glycoproteins interact with receptors on the cell surface, resulting in the trafficking of the virion into an endocytic compartment, followed by the triggering of structural rearrangements in the viral glycoproteins to initiate fusion by exposure to low pH (e.g., influenza virus hemagglutinin [HA]). In a second entry mechanism, the interaction of the viral glycoproteins with receptors on the cell surface in a neutral pH environment triggers the structural rearrangements in the viral glycoproteins directly, initiating viral entry. Retroviruses predominately employ the second entry mechanism, although two cellular protein receptors may be required to complete the conformational changes in the viral glycoproteins necessary to complete entry (e.g., human immunodeficiency virus type 1). However, the entry process of the avian sarcoma and leukosis virus (ASLV) family of retroviruses demonstrates a third entry mechanism for the action of class I virus fusion proteins (25). ASLV entry requires both a specific interaction between the viral glycoproteins and receptors at the cell surface at neutral pH, triggering initial conformational changes in the viral glycoproteins, and a subsequent exposure to low pH to complete fusion (2, 3, 22-24).The fusion peptides of ASLVs are not at the N terminus of the cleaved TM, as in all other retroviral TM proteins, but in a proposed internal loop (TM residues 22 to 37) flanked by two cysteine residues (residues C9 and C45) (Fig. ​(Fig.1).1). The ASLV TM glycoprotein has been proposed to adopt a structure similar to that of the Ebola virus GP2 protein: both contain an internal fusion peptide flanked by cysteine residues predicted to be in a disulfide bond (10). Other viruses contain internal fusion peptides also predicted to be in looped structures (35). In a study to determine if the cysteines that flank the ASLV fusion peptide are required for function, mutant ASLV Env proteins were constructed with one or both of these cysteines changed to serine (C9S, C45S, or C9S C45S [C9,45S]) (8). The mutant subgroup A ASLV [ASLV(A)] Env proteins were expressed, processed, and incorporated into virions at levels similar to those of wild-type (WT) ASLV(A) Env. The mutant and WT ASLV(A) Env proteins bound the Tva receptor with similar affinities. However, murine leukemia virus (MLV) virions pseudotyped with the mutant Envs were ∼500-fold less infectious (titer, ∼2 × 10³ inclusion-forming units [IFU]/ml) than MLV virions pseudotyped with WT ASLV(A) Env (titer, ∼1 × 10⁶ IFU/ml). The ability of the mutant Envs to mediate cell fusion was also greatly impaired compared to that of WT ASLV(A) Env in a cell-cell fusion assay. We concluded that the cysteines flanking the internal fusion peptide in ASLV TM are critical for efficient function of the ASLV viral glycoproteins in mediating entry. In a recent study, the cysteines flanking the fusion peptide region were shown to be critical for the lipid mixing stage of fusion (6).Open in a separate windowFIG. 1.Schematic representations of the ASLV-based RCASBP retroviral vector and the major domains of the envelope glycoproteins. The RCASBP(A)AP replication-competent vector contains a subgroup A env and a reporter gene coding for heat-stable AP. The hypervariable domains (vr1, vr2, hr1, hr2, and vr3) of the SU glycoprotein, the proteolytic cleavage site, the putative fusion peptide region (shaded box), and the membrane-spanning domain (MSD) of the TM glycoprotein are shown schematically. The first 45 residues of the TM glycoprotein are shown for wild-type subgroup A Env (WT) and for the three mutants tested in this study, with either a substitution of serine for the cysteine at position 9 in TM (C9S), a substitution of serine for the cysteine at position 45 in TM (C45S), or both substitutions (C9,45S). The complete sequence of the ASLV(A) WT TM glycoprotein is shown, with the fusion peptide region, N-terminal and C-terminal heptad repeat regions (N-alpha-helix; C-alpha helix), and membrane-spanning domain indicated.Very little is known about the structures of fusion peptides in the context of full-length, trimeric, viral glycoproteins upon interaction with target membranes. Also, natural membrane targets contain a variety of lipid and protein compositions in an asymmetrical organization that is difficult to reproduce experimentally (27). In addition, little is known about how fusion proteins with internal fusion peptide regions interact with target membranes or the possible conformational changes that might be required to complete the fusion process (19, 20). In this study, replication-competent ASLV(A) viruses containing the C9S, C45S, or C9,45S mutations were constructed and genetically selected for improved replication in chicken fibroblasts in order to further explore the importance of these cysteines for proper TM function. Viruses with single cysteine-to-serine mutations reverted to the WT sequence. However, viruses with both the C9S and the C45S mutation retained both mutations and acquired a second-site mutation that significantly enhanced the infectivity of the genetically selected virus population. Unexpectedly, the selected second-site mutation was a charged residue located in the middle of the hydrophobic fusion peptide within TM.     

Production of cloned dogs by decreasing the interval between fusion and activation during somatic cell nuclear transfer

To improve the efficiency of somatic cell nuclear transfer (SCNT) in dogs, we evaluated whether or not the interval between fusion and activation affects the success rate of SCNT. Oocytes retrieved from outbred dogs were reconstructed with adult somatic cells from a male or female Golden Retriever. In total, 151 and 225 reconstructed oocytes were transferred to 9 and 14 naturally synchronized surrogates for male and female donor cells, respectively. Chromosomal morphology was evaluated in 12 oocytes held for an interval of 2 hr between fusion and activation and 14 oocytes held for an interval of 4 hr. Three hundred seventy-six and 288 embryos were transferred to 23 and 16 surrogates for the 2 and 4 hr interval groups, respectively. Both the male (two pregnant surrogates gave birth to three puppies) and female (one pregnant surrogate gave birth to one puppy) donor cells gave birth to live puppies (P > 0.05). In the 2 hr group, significantly more reconstructed oocytes showed condensed, metaphase-like chromosomes compared to the 4 hr group (P < 0.05). A significantly higher pregnancy rate and a greater number of live born puppies were observed in the 2 hr group (13.0% and 1.1%, respectively) compared to the 4 hr group (0%) (P < 0.05). In total, three surrogate dogs carried pregnancies to term and four puppies were born. These results demonstrate that decreasing the interval between fusion and activation increases the success rate of clone production and pregnancy. These results may increase the overall efficiency of SCNT in the canine family.     

Use of colony-based bacterial strain typing for tracking the fate of Lactobacillus strains during human consumption

Background  

The Lactic Acid Bacteria (LAB) are important components of the healthy gut flora and have been used extensively as probiotics. Understanding the cultivable diversity of LAB before and after probiotic administration, and being able to track the fate of administered probiotic isolates during feeding are important parameters to consider in the design of clinical trials to assess probiotic efficacy. Several methods may be used to identify bacteria at the strain level, however, PCR-based methods such as Random Amplified Polymorphic DNA (RAPD) are particularly suited to rapid analysis. We examined the cultivable diversity of LAB in the human gut before and after feeding with two Lactobacillus strains, and also tracked the fate of these two administered strains using a RAPD technique.     

Risk factors and immunity in a nationally representative population following the 2009 influenza A(H1N1) pandemic

Background

Understanding immunity, incidence and risk factors of the 2009 influenza A(H1N1) pandemic (2009 H1N1) through a national seroprevalence study is necessary for informing public health interventions and disease modelling.

Methods and Findings

We collected 1687 serum samples and individual risk factor data between November-2009 to March-2010, three months after the end of the 2009 H1N1 wave in New Zealand. Participants were randomly sampled from selected general practices countrywide and hospitals in the Auckland region. Baseline immunity was measured from 521 sera collected during 2004 to April-2009. Haemagglutination inhibition (HI) antibody titres of ≥1∶40 against 2009 H1N1 were considered seroprotective as well as seropositive. The overall community seroprevalence was 26.7% (CI:22.6–29.4). The seroprevalence varied across age and ethnicity. Children aged 5–19 years had the highest seroprevalence (46.7%;CI:38.3–55.0), a significant increase from the baseline (14%;CI:7.2–20.8). Older adults aged ≥60 had no significant difference in seroprevalence between the serosurvey (24.8%;CI:18.7–30.9) and baseline (22.6%;CI:15.3–30.0). Pacific peoples had the highest seroprevalence (49.5%;CI:35.1–64.0). There was no significant difference in seroprevalence between both primary (29.6%;CI:22.6–36.5) and secondary healthcare workers (25.3%;CI:20.8–29.8) and community participants. No significant regional variation was observed. Multivariate analysis indicated age as the most important risk factor followed by ethnicity. Previous seasonal influenza vaccination was associated with higher HI titres. Approximately 45.2% of seropositive individuals reported no symptoms.

Conclusions

Based on age and ethnicity standardisation to the New Zealand Population, about 29.5% of New Zealanders had antibody titers at a level consistent with immunity to 2009 H1N1. Around 18.3% of New Zealanders were infected with the virus during the first wave including about one child in every three. Older people were protected due to pre-existing immunity. Age was the most important factor associated with infection followed by ethnicity. Healthcare workers did not appear to have an increased risk of infection compared with the general population.     

A Randomized Controlled Trial of Chloroquine for the Treatment of Dengue in Vietnamese Adults

Background

There is currently no licensed antiviral drug for treatment of dengue. Chloroquine (CQ) inhibits the replication of dengue virus (DENV) in vitro.

Methods and Findings

A double-blind, randomized, placebo-controlled trial of CQ in 307 adults hospitalized for suspected DENV infection was conducted at the Hospital for Tropical Diseases (Ho Chi Minh City, Vietnam) between May 2007 and July 2008. Patients with illness histories of 72 hours or less were randomized to a 3-day course of CQ (n = 153) or placebo (n = 154). Laboratory-confirmation of DENV infection was made in 257 (84%) patients. The primary endpoints were time to resolution of DENV viraemia and time to resolution of DENV NS1 antigenaemia. In patients treated with CQ there was a trend toward a longer duration of DENV viraemia (hazard ratio (HR) = 0.80, 95% CI 0.62–1.05), but we did not find any difference for the time to resolution of NS1 antigenaemia (HR = 1.07, 95% CI 0.76–1.51). Interestingly, CQ was associated with a significant reduction in fever clearance time in the intention-to-treat population (HR = 1.37, 95% CI 1.08–1.74) but not in the per-protocol population. There was also a trend towards a lower incidence of dengue hemorrhagic fever (odds ratio = 0.60, PP 95% CI 0.34–1.04) in patients treated with CQ. Differences in levels of T cell activation or pro- or anti-inflammatory plasma cytokine concentrations between CQ- and placebo-treated patients did not explain the trend towards less dengue hemorrhagic fever in the CQ arm. CQ was associated with significantly more adverse events, primarily vomiting.

Conclusions

CQ does not reduce the durations of viraemia and NS1 antigenaemia in dengue patients. Further trials, with appropriate endpoints, would be required to determine if CQ treatment has any clinical benefit in dengue.

Trial Registration

Current Controlled Trials number ISRCTN38002730.     

Mitochondrial matters of the brain: mitochondrial dysfunction and oxidative status in epilepsy

Epilepsy is a neurological disorder characterized by spontaneous, recurrent and paroxysmal cerebral discharge, clinically leading to persistent alterations in function and morphology of neurons. Oxidative stress is one of possible mechanisms in the pathogenesis of epilepsy. Oxidative stress resulting from mitochondrial dysfunction gradually disrupts the intracellular calcium homeostasis, which modulates neuronal excitability and synaptic transmission making neurons more vulnerable to additional stress, and leads to neuronal loss in epilepsy. In addition, the high oxidative status is associated with the severity and recurrence of epileptic seizure. Hence, treatment with antioxidants is critically important in epileptic patients through scavenging the excessive free radicals to protect the neuronal loss. In this review, we reviewed the recent findings that focus on the role for antioxidants in prevention of mitochondrial dysfunction and the correlation between oxidative status and disease prognosis in patients with epilepsy.     

Energy metabolism of Inuit sled dogs

We explored how seasonal changes in temperature, exercise and food supply affected energy metabolism and heart rate of Inuit dogs in Greenland. Using open flow respirometry, doubly labeled water, and heart rate recording, we measured metabolic rates of the same dogs at two different locations: at one location the dogs were fed with high energy food throughout the year while at the other location they were fed with low energy food during summer. Our key questions were: is resting metabolic rate (RMR) increased during the winter season when dogs are working? Does feeding regime affect RMR during summer? What is the proportion of metabolic rate (MR) devoted to specific dynamic action (SDA), and what is the metabolic scope of working Inuit sled dogs? The Inuit dogs had an extremely wide thermoneutral zone extending down to ?25°C. Temperature changes between summer and winter did not affect RMR, thus summer fasting periods were defined as baseline RMR. Relative to this baseline, summer MR was upregulated in the group of dogs receiving low energy food, whereas heart rate was downregulated. However, during food digestion, both MR and HR were twice their respective baseline values. A continuously elevated MR was observed during winter. Because temperature effects were excluded and because there were also no effects of training, we attribute winter elevated MR to SDA because of the continuous food supply. Working MR during winter was 7.9 times the MR of resting dogs in winter, or 12.2 times baseline MR.     

Significant Association between Sulfate-Reducing Bacteria and Uranium-Reducing Microbial Communities as Revealed by a Combined Massively Parallel Sequencing-Indicator Species Approach

Massively parallel sequencing has provided a more affordable and high-throughput method to study microbial communities, although it has mostly been used in an exploratory fashion. We combined pyrosequencing with a strict indicator species statistical analysis to test if bacteria specifically responded to ethanol injection that successfully promoted dissimilatory uranium(VI) reduction in the subsurface of a uranium contamination plume at the Oak Ridge Field Research Center in Tennessee. Remediation was achieved with a hydraulic flow control consisting of an inner loop, where ethanol was injected, and an outer loop for flow-field protection. This strategy reduced uranium concentrations in groundwater to levels below 0.126 μM and created geochemical gradients in electron donors from the inner-loop injection well toward the outer loop and downgradient flow path. Our analysis with 15 sediment samples from the entire test area found significant indicator species that showed a high degree of adaptation to the three different hydrochemical-created conditions. Castellaniella and Rhodanobacter characterized areas with low pH, heavy metals, and low bioactivity, while sulfate-, Fe(III)-, and U(VI)-reducing bacteria (Desulfovibrio, Anaeromyxobacter, and Desulfosporosinus) were indicators of areas where U(VI) reduction occurred. The abundance of these bacteria, as well as the Fe(III) and U(VI) reducer Geobacter, correlated with the hydraulic connectivity to the substrate injection site, suggesting that the selected populations were a direct response to electron donor addition by the groundwater flow path. A false-discovery-rate approach was implemented to discard false-positive results by chance, given the large amount of data compared.Massively parallel sequencing has increased our ability to study microbial communities to a greater depth and at decreased sequencing costs to an extent that replication and gradient interrogation are now reasonably attainable. However, this massive throughput has mostly been used in exploratory studies, given the challenges to analysis of the big data sets generated and the relative novelty of the technique. To date, no report of a study that has used this method to describe the microbial community over a large area influenced by complicated hydrogeochemical factors during bioremediation has been published. Here, we used pyrosequencing technology complemented with a hypothesis-based approach to identify bacteria associated with biostimulation of U(VI) reduction at Area 3 of the U.S. Department of Energy''s (DOE''s) Oak Ridge Field Research Center (FRC) at Oak Ridge, TN.The Oak Ridge FRC is one of the most-studied sites for uranium bioremediation (2, 8, 19-22, 27, 37, 45-48). Previously used as a uranium enrichment plant, the site remains contaminated with depleted uranium, nitrate, and acidity. To deal with uranium contamination, dissimilatory metal reduction has been studied as an alternative that reduces risk by converting toxic soluble metals and radionuclides to insoluble, less toxic forms (2, 3, 16, 21, 26, 45). For example, some microbes can use metals such as Cr(VI), Se(VI), and the radionuclides U(VI) and Tc(VII) as final electron acceptors, producing a reduced insoluble species, thus blocking dispersal and reducing bioavailability.The ability to reduce U(VI) to U(IV) has been found in several unrelated phylogenetic groups, i.e., Delta-, Beta-, and Gammaproteobacteria, Firmicutes, Deinococci, and Actinobacteria, among others (42). Most previous studies have focused on the Fe(III)-reducing bacteria (FRB), especially Geobacter, and the sulfate-reducing bacteria (SRB), especially Desulfovibrio. Uranium(VI) reduction for bioremediation purposes has been tested and confirmed in laboratory-scale experiments using serum bottles (13, 18, 48), microcosms (23, 32), sediment columns (14, 43), and in situ field studies (3, 21, 41, 45), with the last one demonstrating the feasibility of U(VI) remediation and the correlation of U(VI) reduction with FRB (3, 6, 18, 31, 41) or SRB (40), or both (8, 19, 49).During field studies at Area 3 of the Oak Ridge site, a hydraulic control system together with ethanol injection successfully promoted U(VI) reduction from 5 μM to levels below U.S. Environmental Protection Agency (EPA) maximum contaminant levels (MCLs) for drinking water (0.126 μM) over a 2-year period (46). Reduction of U(VI) to U(IV) was confirmed by X-ray absorption near edge structure (XANES) (22, 46). Previous microbial surveys of sediments and groundwater from Area 3 wells by the use of 16S rRNA gene clone libraries detected genera known to harbor U(VI)-reducing members, such as Geobacter, Desulfovibrio, Anaeromyxobacter, Desulfosporosinus, and Acidovorax, after U(VI) reduction was established (8, 19). In one study, microbial counts from sediments were correlated with the hydraulic path, suggesting differences in organic carbon availability throughout Area 3 (8). The study that tracked the groundwater microbial communities of four locations of Area 3 over a 1.5-year period during ethanol stimulation found that nitrate, uranium, sulfide, and ethanol were correlated with particular bacterial populations and that the engineering control of dissolved oxygen and delivered nutrients was also significant in explaining the microbial community variability (19). However, the analysis of communities has been focused on limited wells and the community of the entire test area has not been characterized.On the basis of the previous results, we further hypothesized that the hydrological control strategy employed for the remediation of the site constrained the geochemistry of the site by controlling the distribution of organic carbon substrates and other nutrients and that this in turn selected a characteristic microbial community that was distinguishable from its surrounding community. We used massively parallel sequencing of 16S rRNA genes from sediments of 15 wells to characterize the microbial communities along hydrological gradients from the microbiologically active and hydraulically protected inner-loop zone to less active and still contaminated areas outside the treatment area and downgradient. Our sediment-sampling strategy allows a more precise spatial characterization than the use of groundwater samples, where filtering large volumes of water is often required, and also because samples of the attached communities can differ from the planktonic ones, as expected in oligotrophic aquifers (15), such as this site. The deeper sequencing allowed a more extensive survey of the communities, higher confidence in the detection of less dominant but significant members, and a more statistically robust indicator species assessment. We were able to detect groups significantly associated with U(VI) reduction and to explain differences in community structure with hydrogeochemical conditions.