Human Immunodeficiency Virus Type 1-Specific CD8+ T-Cell Responses during Primary Infection Are Major Determinants of the Viral Set Point and Loss of CD4+ T Cells

Primary HIV-1 infection (PHI) is marked by a flu-like syndrome and high levels of viremia that decrease to a viral set point with the first emergence of virus-specific CD8⁺ T-cell responses. Here, we investigated in a large cohort of 527 subjects the immunodominance pattern of the first virus-specific cytotoxic T-lymphocyte (CTL) responses developed during PHI in comparison to CTL responses in chronic infection and demonstrated a distinct relationship between the early virus-specific CTL responses and the viral set point, as well as the slope of CD4⁺ T-cell decline. CTL responses during PHI followed clear hierarchical immunodominance patterns that were lost during the transition to chronic infection. Importantly, the immunodominance patterns of human immunodeficiency virus type 1 (HIV-1)-specific CTL responses detected in primary, but not in chronic, HIV-1 infection were significantly associated with the subsequent set point of viral replication. Moreover, the preservation of the initial CD8⁺ T-cell immunodominance patterns from the acute into the chronic phase of infection was significantly associated with slower CD4⁺ T-cell decline. Taken together, these data show that the specificity of the initial CTL response to HIV is critical for the subsequent control of viremia and have important implications for the rational selection of antigens for future HIV-1 vaccines.In the first weeks after human immunodeficiency virus type 1 (HIV-1) acquisition, viral loads peak at high levels, accompanied by a flu-like syndrome (15). A rapid depletion of the CD4⁺ T-cell population occurs during this acute infection, in particular, within the gastrointestinal tract-associated lymphoid tissue (6, 19, 20), marking a nonrecoverable scar on the immune system. With the resolution of the clinical syndromes, viral loads decrease to a set point, which persists at this level for months to years until progressive CD4⁺ T-cell decline results in the onset of AIDS. It has been shown that the initial viral set point following primary infection is a very strong predictor of the disease-free period until the onset of AIDS (18, 21, 22).The initial decrease in the viral load during primary HIV-1 infection (PHI) is temporally associated with the first emergence of virus-specific CD8⁺ T-cell responses, and several studies have provided strong evidence that HIV-1-specific CD8⁺ T-cell responses are capable of controlling viral replication (5, 16, 24, 25, 27, 31, 33). However, significant numbers of virus-specific CD8⁺ T cells are detectable both in chronically infected individuals who progress rapidly to AIDS and in those who do not experience HIV-1 disease progression for decades (1, 11), and the characteristics that define a protective HIV-1-specific CD8⁺ T-cell response are not known. In particular, the level of control over viral replication is not predicted by the overall breadth, magnitude, or function of virus-specific CD8⁺ T-cell responses in chronic HIV-1 infection (1, 4, 11, 26, 28).Here, we demonstrate in a large cohort of individuals identified during PHI that immunodominance patterns of virus-specific CD8⁺ T-cell responses detected in PHI, but not in chronic HIV-1 infection, are strongly associated with the subsequent set point of viral replication. These data show that the specificity of the initial CD8⁺ T-cell response to HIV is critical for the subsequent control of viremia and have important implications for the rational selection of antigens for future HIV-1 vaccines.     

The effect of an early-season short-term heat pulse on plant recruitment in the Arctic

Climate change will cause large-scale plant migration. Seedling recruitment constitutes a bottleneck in the migration process but is itself climate-dependent. We tested the effect of warming on early establishment of three Arctic pioneer species, while holding other environmental variables constant. Seeds and bulbils were sown in artificial gaps in dry Arctic tundra and subjected to a 13-day heating of the soil surface by 2–8°C, simulating temperature increases ranging from the general summer warming to heat waves projected to occur more frequently with global warming. All species showed decreased establishment with increasing soil surface temperature. The short-term heat pulse decreased establishment of Polygonum viviparum and Saxifraga cernua, whereas establishment of Cerastium alpinum decreased with temperature due to more permanent natural variation in micro-climate. The treatment effects increased by the quadrat of the temperature increase. Warming and in particular heat waves may result in declining establishment of Arctic plants in dry tundra regions. Electronic supplementary material  The online version of this article (doi:) contains supplementary material, which is available to authorized users.     

Plio-Pleistocene climate change and geographic heterogeneity in plant diversity–environment relationships

Plio‐Pleistocene climate change may have induced geographic heterogeneity in plant species richness–environment relationships in Europe due to greater in situ species survival and speciation rates in southern Europe. We formulate distinct hypotheses on how Plio‐Pleistocene climate change may have affected richness–topographic heterogeneity and richness–water‐energy availability relationships, causing steeper relationships in southern Europe. We investigated these hypotheses using data from Atlas Florae Europaeae on the distribution of 3069 species and geographically weighted regression (GWR). Our analyses showed that plant species richness generally increased with topographic heterogeneity (ln‐transformed altitudinal range) and actual evapotranspiration (AET). We also found evidence for strong geographic heterogeneity in the species richness–environment relationship, with a greater increase in species richness with increasing topographic heterogeneity in southern Europe (mean standardized local slope 0.610±0.245 SD in southern Europe, but only 0.270±0.175 SD in northern Europe). However, the local AET slopes were, at most, weakly different between the two regions, and their pattern did not conform to predictions, as there was a band of high local slopes across southern‐central northern Europe. This band broadly matches the transition between the temperate and boreal zones and may simply reflect the fact that few species tolerate the boreal climate. We discuss the potential explanations for the contrasting findings for the two richness–environment relationships. In conclusion, we find support for the idea that Plio‐Pleistocene climate change may sometimes affect current species richness–environment relationships via its effects on regional species pools. However, further studies integrating information on species ages and clade differentiation rates will be needed to substantiate this interpretation. On a general level, our results indicate that although strong richness–environment relationships are often found in macroecological studies, these can be contingent upon the historical constraints on the species pool.     

Bacterial feeders, the nematode Caenorhabditis elegans and the flagellate Cercomonas longicauda, have different effects on outcome of competition among the Pseudomonas biocontrol strains CHA0 and DSS73

How bacterial feeding fauna affects colonization and survival of bacteria in soil is not well understood, which constrains the applicability of bacterial inoculants in agriculture. This study aimed to unravel how food quality of bacteria and bacterial feeders with different feeding habits (the selective feeding flagellate Cercomonas longicauda versus the non-selective feeding nematode Caenorhabditis elegans) influence the abundance of two bacteria that compete for resources in simple model communities. Microcosms consisted of either one gfp-tagged bacterial strain (Pseudomonas fluorescens DSM50090 or one of two biocontrol strains P. fluorescens CHA0 or Pseudomonas sp. DSS73) or combinations of two bacterial strains. DSM50090 is a suitable food bacterium, DSS73 is of intermediate food quality, and CHA0 is inedible to the bacterial feeders. Bacterial and protozoan cell numbers were measured by flow cytometry. In the presence of flagellates, CHA0 increased its abundance as compared to the other biocontrol strain DSS73 or to DSM50090, which were both eaten by the flagellates. In contrast, the number of CHA0 declined as compared to DSS73 when the model community was subjected to nematode predation pressure. Hence, the results suggested that the outcome of competition among bacteria depended on their ability to cope with the prevailing bacterial predator.     

Desert hedgehog‐patched 2 expression in peripheral nerves during Wallerian degeneration and regeneration

Hedgehog proteins are important in the development of the nervous system. As Desert hedgehog (Dhh) is involved in the development of peripheral nerves and is expressed in adult nerves, it may play a role in the maintenance of adult nerves and degeneration and regeneration after injury. We firstly investigated the Dhh‐receptors, which are expressed in mouse adult nerves. The Dhh receptor patched(ptc)2 was detected in adult sciatic nerves using RT‐PCR, however, ptc1 was undetectable under the same experimental condition. Using RT‐PCR in purified cultures of mouse Schwann cells and fibroblasts, we found ptc2 mRNA in Schwann cells, and at much lower levels, in fibroblasts. By immunohistochemistry, Ptc2 protein was seen on unmyelinated nerve fibers. Then we induced crush injury to the sciatic nerves of wild‐type (WT) and dhh‐null mice and the distal stumps of injured nerves were analyzed morphologically at different time points and expression of dhh and related receptors was also measured by RT‐PCR in WT mice. In dhh‐null mice, degeneration of myelinated fibers was more severe than in WT mice. Furthermore, in regenerated nerves of dhh‐null mice, minifascicular formation was even more extensive than in dhh‐null intact nerves. Both dhh and ptc2 mRNA levels were down‐regulated during the degenerative phase postinjury in WT mice, while levels rose again during the phase of nerve regeneration. These results suggest that the Dhh‐Ptc2 signaling pathway may be involved in the maintenance of adult nerves and may be one of the factors that directly or indirectly determines the response of peripheral nerves to injury. © 2005 Wiley Periodicals, Inc. J Neurobiol, 2006     

Geography,topography, and history affect realized‐to‐potential tree species richness patterns in Europe

Environmental conditions and biotic interactions are generally thought to influence local species richness. However, immigration and the evolutionary and historical factors that shape regional species pools should also contribute to determining local species richness because local communities arise by assembly from regional species pools. Using the European tree flora as our study system, we implemented a novel approach to assess the relative importance of local and regional mechanisms that control local species richness. We first identified species pools that tolerate particular local environments and quantified the proportion of the pool that is present locally, i.e. the realized/potential (R/P) richness ratio. Because no consensus exists on how to estimate potential richness, we estimated it using three different approaches. Using these three estimates separately and in a combined ensemble estimate, we then analyzed the effects of potential drivers on R/P richness ratios. We predicted that the R/P richness ratio would 1) increase with decreasing distance from glacial refugia (accessibility), 2) and be generally low in geographically fragmented southern Europe because of dispersal limitation; 3) increase with actual evapotranspiration because greater availability of water and energy promotes local population persistence; and 4) increase with topographic heterogeneity because it promotes local species coexistence and facilitates long‐term species survival. There was considerable variation among the three R/P richness ratio estimates, but we found consistent support for a negative effect of regional geographic fragmentation and a positive topographic effect. We also identified fairly broad support for the predicted effect of accessibility. We conclude that local tree assemblages in Europe often fail to realize a large proportion of the potential richness held in the regional species pool, partially reflecting their geographical, historical, and environmental circumstances. The dispersal‐related effects of geographic fragmentation and accessibility exemplify regional controls that combine with local ecological sorting to determine local species richness.     

Importance of residue 13 and the C-terminus for the structure and activity of the antimicrobial peptide aurein 2.2

Previous studies on aurein 2.2 and 2.3 in DMPC/DMPG and POPC/POPG membranes have shown that bilayer thickness and phosphatidylglycerol content have a significant impact on the interaction of these peptides with membrane bilayers. Further examination with the DiSC₃5 assay has indicated that aurein 2.2 induces greater membrane leakage than aurein 2.3 in Staphylococcus aureus C622. The only difference between these peptides is a Leu to Ile mutation at residue 13. To better understand the importance of this residue, the structure and activity of the L13A, L13F, and L13V mutants were investigated. In addition, we investigated a number of peptides with truncations at the C-terminus to determine whether the C-terminus, which contains residue 13, is crucial for antimicrobial activity. Solution circular dichroism results demonstrated that the L13F mutation and the truncation of the C-terminus by six residues resulted in decreased helical content, whereas the L13A or L13V mutation and the truncation of the C-terminus by three residues showed little to no effect on the structure. Oriented circular dichroism results demonstrated that only an extensive C-terminal truncation reduced the ability of the peptide to insert into lipid bilayers. ³¹P NMR spectroscopy showed that all peptides disorder the headgroups. The implications of these results in terms of antimicrobial activity and the ability of these peptides to induce leakage in S. aureus are discussed. The results suggest that the presence of the 13th residue in aurein 2.2 is important for structure and activity, but the exact nature of residue 13 is less important as long as it is a hydrophobic residue.     

Impaired Replication Capacity of Acute/Early Viruses in Persons Who Become HIV Controllers

Human immunodeficiency virus type 1 (HIV-1) controllers maintain viremia at <2,000 RNA copies/ml without antiretroviral therapy. Viruses from controllers with chronic infection were shown to exhibit impaired replication capacities, in part associated with escape mutations from cytotoxic-T-lymphocyte (CTL) responses. In contrast, little is known about viruses during acute/early infection in individuals who subsequently become HIV controllers. Here, we examine the viral replication capacities, HLA types, and virus sequences from 18 HIV-1 controllers identified during primary infection. gag-protease chimeric viruses constructed using the earliest postinfection samples displayed significantly lower replication capacities than isolates from persons who failed to control viremia (P = 0.0003). Protective HLA class I alleles were not enriched in these early HIV controllers, but viral sequencing revealed a significantly higher prevalence of drug resistance mutations associated with impaired viral fitness in controllers than in noncontrollers (6/15 [40.0%] versus 10/80 [12.5%], P = 0.018). Moreover, of two HLA-B57-positive (B57⁺) controllers identified, both harbored, at the earliest time point tested, signature escape mutations within Gag that likewise impair viral replication capacity. Only five controllers did not express “protective” alleles or harbor viruses with drug resistance mutations; intriguingly, two of them displayed typical B57 signature mutations (T242N), suggesting the acquisition of attenuated viruses from B57⁺ donors. These data indicate that acute/early stage viruses from persons who become controllers have evidence of reduced replication capacity during the initial stages of infection which is likely associated with transmitted or acquired CTL escape mutations or transmitted drug resistance mutations. These data suggest that viral dynamics during acute infection have a major impact on HIV disease outcome.Human immunodeficiency virus type I (HIV-1)-infected individuals who control viremia spontaneously without antiviral therapy have been termed HIV controllers (3, 18, 21, 48, 52). Unraveling the mechanisms associated with this phenotype should provide important insights regarding HIV pathogenesis and could contribute to vaccine development.Host and viral genetics, as well as host innate and adaptive immune responses, influence the rate of disease progression in HIV-1 infection (reviewed in reference 18). Several studies have reported the correlation between in vitro HIV replication capacity and level of plasma virus loads or disease progression in individuals with chronic infection (6, 13, 35, 45, 50, 55). Studies of HIV-1 elite controllers (EC), who control viremia to below the limit of detection in commercial assays, have revealed the presence of replication-competent viruses in these individuals (7), although these viruses appear to be less fit based on studies of envelope (35) and Gag-protease (45). This fitness defect in the chronic phase of infection is due at least in part to fitness-impairing mutations induced by cytotoxic-T-lymphocyte (CTL) responses restricted by “protective” HLA class I alleles (46).In contrast, little is known about viruses obtained from the acute/early phase of infection in persons who subsequently become HIV-1 controllers, largely due to the difficulty in enrolling such people during the acute/early phase of infection. The characterization of acute/early-phase viruses in individuals who subsequently achieve low set-point virus loads is of paramount importance to our understanding of the mechanisms of HIV-1 control.In the present study, we analyzed acute/early-phase plasma HIV RNA sequences from 18 untreated individuals who were diagnosed during the acute/early phase and subsequently became controllers (<2,000 RNA copies/ml). We compared these to sequences from a group of HIV-1 noncontrollers enrolled similarly during acute/early infection. We also generated chimeric viruses carrying patient-derived gag-protease sequences from acute/early-phase infection and compared the viral replication capacities of the chimeric viruses from controllers and from noncontrollers.We observed that the chimeric viruses derived from controllers have significantly reduced replicative capacities compared to those from noncontrollers. Moreover, we observed that at least 80% of these individuals who go on to become controllers featured transmission of attenuated drug-resistant viruses, transmission of HLA-B57-restricted CTL escape variants to HLA-mismatched recipients, selection of attenuated CTL escape variants in HLA-B57-positive (B57⁺) recipients, or combinations of these factors. Taken together, these results indicate that the initial viral dynamics have a major influence on the subsequent course of disease.     

A novel selective growth medium-PCR assay to isolate and detect Sphingomonas in environmental samples

Sphingomonas species can be found ubiquitously in the environment and can be frequently found in surface biofilms. Some Sphingomonas strains are well known for metabolizing complex organic pollutants but some are opportunistic human pathogens. Despite the importance of the Sphingomonas species, a reliable system to isolate this group of bacteria from the environment has not been developed. In this study, a combined streptomycin-piperacillin selective growth medium/polymerase chain reaction (PCR) detection approach is developed to isolate and identify the Sphingomonas bacteria. A total of 72 known Sphingomonas strains (including 21 different Sphingomonas species type strains) and 14 non-Sphingomonas species were tested using a new Sphingomonas-specific growth medium containing 100 and 50 µg/ml streptomycin and piperacillin, respectively. All the Sphingomonas strains showed positive growth on the selective medium and no growth was shown by the non-Sphingomonas species. In addition, two sets of PCR primers targeting the serine palmitoyltransferase gene (spt), a crucial sphingolipid biosynthesis gene, were developed. With the exception of the Sphingomonas subarctica type strain, 71 of the 72 known Sphingomonas samples were amplified positively by either one or both of the spt-specific primers. None of the non-Sphingomonas bacteria were amplified by the spt primers. To verify the effectiveness of this novel approach for use in environmental screening applications the Sphingomonas selective medium was used to isolate 165 potential Sphingomonas isolates, including 101 yellow, 4 orange and 58 unpigmented isolates, from the influent water and biofilm samples of a pulp and paper mill in Northwestern Ontario. Screening of these isolates with the two Sphingomonas spt-PCR primer sets showed that 98% of the yellow isolates and 100% of the orange isolates were positive to the spt-PCR test. None of the unpigmented isolates was positive to the spt-PCR assay. The 16S rDNA of 17% of the spt + ve and − ve isolates were sequenced and analyzed. All of the yellow and orange pigmented isolates were Sphingomonas while none of the unpigmented isolates were Sphingomonas. REP-PCR was performed on 79 Sphingomonas samples randomly selected from the paper mill and hospital isolates and showed that a diverse group of Sphingomonas can be grown or isolated by our Sphingomonas selective growth medium. Therefore, by using the streptomycin-piperacillin selective growth medium in combination with the colour pigmentation and the positive spt-PCR reactions of the isolates, a diverse population of Sphingomonas strains can be isolated and identified from complex microbial communities with high accuracy.     

The MG1363 and IL1403 Laboratory Strains of Lactococcus lactis and Several Dairy Strains Are Diploid

Bacteria are normally haploid, maintaining one copy of their genome in one circular chromosome. We have examined the cell cycle of laboratory strains of Lactococcus lactis, and, to our surprise, we found that some of these strains were born with two complete nonreplicating chromosomes. We determined the cellular content of DNA by flow cytometry and by radioactive labeling of the DNA. These strains thus fulfill the criterion of being diploid. Several dairy strains were also found to be diploid while a nondairy strain and several other dairy strains were haploid in slow-growing culture. The diploid and haploid strains differed in their sensitivity toward UV light, in their cell size, and in their D period, the period between termination of DNA replication and cell division.In contrast to higher eukaryotes, bacteria are haploid (6, 19); i.e., they store their genetic information in a single chromosome, which is then duplicated during the cell cycle. If the growth rate is sufficiently low, bacteria are born with a single copy of the chromosome, which will then be duplicated before the bacterium divides.There are a few reports about bacteria that have more than one genome per cell, i.e., that are polyploid. Deinococcus radiodurans has been shown to have 4 to 10 copies of its genome (13, 14). The diplococcal bacterium Neisseria gonorrhoeae was found to be diploid per coccal unit (31). Azotobacter vinelandii bacteria amplify the genome during growth in rich medium more than 40 times (20, 24, 27). The giant bacterium Epulopiscium fishelsoni has been shown to amplify its genome into a polytene chromosome of 3,000-fold ploidy (2). In addition, noncomplementing diploid bacteria have been isolated from protoplast fusions in Bacillus subtilis (11) and, as a result of zygogenesis, in Escherichia coli (10). A few other bacteria with two to six different chromosomes have been reported (15, 30).The normal cell cycle is divided into three periods: (i) the B period from cell division until initiation of replication, (ii) the C period in which the cell replicates its DNA, and (iii) the D period from termination of productive replication until cell division. The D period thus includes processes such as proofreading and deconcatenation. The B period is found only in cells whose generation times exceed the length of the combined C and D periods. If the generation times become shorter than the combined lengths of the C and D periods, then the initiations of replication move into previous cell cycles (16). Fast-growing bacteria will therefore have more than one ongoing round of DNA replication at the same time; they might have 4, 8, or even 16 origins of replication (4). Normal haploid cells are born with one chromosome, either replicating or nonreplicating, and always with one terminus of replication. Not until the replication has ended do the cells have two termini. If the D period becomes longer than the generation time, which happens at high growth rates, the cells will be born with two termini as a result of the overlapping cell cycles. Long D periods are discussed further in the Discussion.We have examined the cell cycle of Lactococcus lactis subsp. cremoris MG1363 in order to determine the cell cycle periods. To our surprise, we found that slow-growing cultures of these bacteria were born with two complete chromosomes, which were replicated into four chromosomes during the C period. This strain thus fulfills the criterion of being diploid without overlapping chromosomal replication cycles. Comparison with other L. lactis strains showed that both of the subspecies, L. lactis subsp. cremoris and L. lactis subsp. lactis, had members that were either diploid, like MG1363, or haploid, like most bacteria.