Reciprocal intraguild predation and predator coexistence

Intraguild predation is a mix of competition and predation and occurs when one species feeds on another species that uses similar resources. Theory predicts that intraguild predation hampers coexistence of species involved, but it is common in nature. It has been suggested that increasing habitat complexity and the presence of alternative food may promote coexistence. Reciprocal intraguild predation limits possibilities for coexistence even further. Habitat complexity and the presence of alternative food are believed to promote coexistence. We investigated this using two species of predatory mites, Iphiseiodes zuluagai and Euseius concordis, by assessing co‐occurrence in the field and on arenas differing in spatial structure in the laboratory. The predators co‐occured on the same plants in the field. In the laboratory, adults of the two mites fed on juveniles of the other species, both in the presence and the absence of a shared food source, showing that the two species are involved in reciprocal intraguild predation. Adults of I. zuluagai also attacked adults of E. concordis. This suggests limited possibilities for coexistence of the two species. Indeed, E. concordis invariably went extinct extremely rapidly on arenas without spatial structure with populations consisting of all stages of the two predators and with a shared resource. Coexistence was prolonged on host plant leaves with extra food sources, but E. concordis still went extinct. On small, intact plants, coexistence of the two species was much longer, and ended with the other species, I. zuluagai, often going extinct. These results suggest that spatial structure and the presence of alternative food increase the coexistence period of intraguild predators.     

Protection of rhesus macaques against disease progression from pathogenic SHIV-89.6PD by vaccination with phage-displayed HIV-1 epitopes.

The antigenic polymorphism of HIV-1 is a major obstacle in developing an effective vaccine. Accordingly, we screened random peptide libraries (RPLs) displayed on phage with antibodies from HIV-infected individuals and identified an array of HIV-specific epitopes that behave as antigenic mimics of conformational epitopes of gp120 and gp41 proteins. We report that the selected epitopes are shared by a collection of HIV-1 isolates of clades A-F. The phage-borne epitopes are immunogenic in rhesus macaques, where they elicit envelope-specific antibody responses. Upon intravenous challenge with 60 MID50 of pathogenic SHIV-89.6PD, all monkeys became infected; however, in contrast to the naive and mock-immunized monkeys, four of five mimotope-immunized monkeys experienced lower levels of peak viremia, followed by viral set points of undetectable or transient levels of viremia and a mild decline of CD4+ T cells, and were protected from progression to AIDS-like illness. These results provide a new approach to the design of broadly protective HIV-1 vaccines.     

Recombinant rabbit hemorrhagic disease virus capsid protein expressed in baculovirus self-assembles into viruslike particles and induces protection.

VP60, the unique component of rabbit hemorrhagic disease virus capsid, was expressed in the baculovirus system. The recombinant VP60, released in the supernatant of infected insect cells, assembled without the need of any other viral component to form viruslike particles (VLPs), structurally and immunologically indistinguishable from the rabbit hemorrhagic disease virion. Intramuscular vaccination of rabbits with the VLPs conferred complete protection in 15 days; this protection was found to be effective from the fifth day after VLP injection and was accompanied by a strong humoral response.     

Use of odours by Cycloneda sanguinea to assess patch quality

Adult ladybirds are likely to encounter various species of prey when foraging for oviposition sites. Optimal oviposition theory predicts that females should lay eggs in those sites that are the most suitable for offspring development. Therefore, factors that directly affect offspring mortality, such as the presence of predators and food, are expected to play an important role in the assessment of patch profitability by ladybird predators. Using a Y‐tube olfactometer, we tested whether the predatory ladybird Cycloneda sanguinea L. (Coleoptera: Coccinellidae) can use volatile cues to assess patch profitability and avoid predator‐rich patches. We assessed the foraging behaviour of C. sanguinea in response to odours associated with tomato plants infested with a superior prey, Macrosiphum euphorbiae Thomas (Homoptera: Aphididae), and with an inferior prey, Tetranychus evansi Baker and Pritchard (Acari: Tetranychidae), in the presence or absence of the heterospecific predator Eriopis connexa Mulsant (Coleoptera: Coccinellidae). Females of C. sanguinea significantly preferred plants infested by M. euphorbiae to plants infested by T. evansi and avoided odours emanating from plants on which E. connexa females were present. Our results show that C. sanguinea use volatile cues to assess patch profitability and to avoid patches with heterospecific competitors or intraguild predators.     

Conserved pleiotropy of an ancient plant homeobox gene uncovered by cis-regulatory dissection

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Early floral development of Heliconia latispatha (Heliconiaceae), a key taxon for understanding the evolution of flower development in the Zingiberales

We present new comparative data on early floral development of Heliconia latispatha, an ecologically and horticulturally important tropical plant within the order Zingiberales. Modification of the six members of two androecial whorls is characteristic of Zingiberales, with a reduction in number of fertile stamen from five or six in the banana families (Musaceae, Strelitziaceae, Lowiaceae, and Heliconiaceae) to one in Costaceae and Zingiberaceae and one-half in Marantaceae and Cannaceae. The remaining five infertile stamens in these later four families (the ginger families) are petaloid, and in Costaceae and Zingiberaceae fuse together to form a novel structure, the labellum. Within this developmental sequence, Heliconiaceae share with the ginger families the possession of an antisepalous staminode, a synapomorphy that has been used to place Heliconiaceae as sister to the ginger family clade. Here, we use epi-illumination light microscopy and reconstruction of serial sections to investigate the ontogeny of the Heliconia flower with emphasis on the ontogeny of the staminode. We compare floral development in Heliconia with that previously described for other species of Zingiberales. A comparison of floral structure and development across Zingiberales is presented to better understand the evolution of the flower in this charismatic group of tropical plants.     

Preexisting Infection with Human T-Cell Lymphotropic Virus Type 2 neither Exacerbates nor Attenuates Simian Immunodeficiency Virus SIVmac251 Infection in Macaques

Coinfection with human T-cell lymphotropic virus type 2 (HTLV-2) and human immunodeficiency virus type 1 (HIV-1) has been reported to have either a slowed disease course or to have no effect on progression to AIDS. In this study, we generated a coinfection animal model and investigated whether HTLV-2 could persistently infect macaques, induce a T-cell response, and impact simian immunodeficiency virus SIV_mac251-induced disease. We found that inoculation of irradiated HTLV-2-infected T cells into Indian rhesus macaques elicited humoral and T-cell responses to HTLV-2 antigens at both systemic and mucosal sites. Low levels of HTLV-2 provirus DNA were detected in the blood, lymphoid tissues, and gastrointestinal tracts of infected animals. Exposure of HTLV-2-infected or naïve macaques to SIV_mac251 demonstrated comparable levels of SIV_mac251 viral replication, similar rates of mucosal and peripheral CD4⁺ T-cell loss, and increased T-cell proliferation. Additionally, neither the magnitude nor the functional capacity of the SIV-specific T-cell-mediated immune response was different in HTLV-2/SIV_mac251 coinfected animals versus SIV_mac251 singly infected controls. Thus, HTLV-2 targets mucosal sites, persists, and importantly does not exacerbate SIV_mac251 infection. These data provide the impetus for the development of an attenuated HTLV-2-based vectored vaccine for HIV-1; this approach could elicit persistent mucosal immunity that may prevent HIV-1/SIV_mac251 infection.Human T-cell lymphotropic virus type 2 (HTLV-2) was discovered in 1982 and recognized as the second human retrovirus found (29). HTLV-2 is closely related to the first human retrovirus discovered, HTLV-1 (49, 50)_, a pathogenic virus that causes adult T-cell leukemia/lymphoma (ATLL) and an inflammatory neurologic disorder called HTLV-1-associated myelopathy or tropical spastic paraparesis (HAM/TSP) (22, 45).HTLV-2 is prevalent in Amerindian populations of North and South America and in Africa (57). The prevalence of HTLV-2 is generally low; however, in the past 20 years, an epidemic of HTLV-2 infection has occurred among intravenous drug users (8, 24, 54, 57). HTLV-2 establishes a lifelong infection and replicates at low levels in most infected individuals. While anecdotal cases of TSP/HAM-like neurological manifestations (1, 44) and hematopoietic diseases, such as large granular lymphoma (LGL), in HTLV-2-infected individuals have been reported (3, 37-39, 46), the extent to which HTLV-2 can induce disease in humans remains unclear. Indeed, even in the condition of immune deficiency, such as infection with human immunodeficiency virus type 1 (HIV-1), HTLV-2 coinfection has not been reported to be associated with cancer or neurological diseases. However, more studies are necessary to fully understand the role of HTLV-2 in human disease. While HTLV-1 infection has been connected with an accelerated course of disease in HIV-1 coinfected patients (2, 34), HTLV-2 has been reported to either have no effect (26) or suggested to exert a potential protective role during HIV-1 infection (12, 23). This protective role is thought to be due to a maintenance of CD4⁺ T cells, lowering immune activation, and delayed progression to AIDS (4, 5). In addition, modulation of cytokine and chemokine networks by HTLV-2 has been suggested to contribute to the control of HIV-1 infection (12, 36, 47). Since studies on the immunological interactions between HIV-1 and HTLV-2 have been performed in patients coinfected with HIV-1 and HTLV-2 in the chronic phase of HIV-1 disease, little is known about the effects of HTLV-2 infection during acute HIV-1 replication, mucosal CD4⁺ T-cell depletion, or HIV-1-specific immune responses. Furthermore, the potential protective effect of an HTLV-2 vector that would target both CD4⁺ and CD8⁺ T cells and induce a low-grade persistent infection makes HTLV-2 an interesting potential vaccine platform for an HIV-1 vaccine.Current HIV-1 vaccine strategies have focused on viral vectors delivering HIV-1 antigens. These vectors stimulate strong, systemic antigen-specific responses but are unable to protect from infection, since they generate only limited mucosal responses and do not persist. The only vaccine approach that has conferred protection in the simian immunodeficiency virus SIV_mac251 macaque model is a live attenuated virus (17), suggesting that persistent expression of viral antigens in mucosal and lymphoid tissues may be necessary. An HTLV-2 vector expressing HIV-1 antigens at mucosal sites that stimulates and maintains T-cell responses in the gut may confer protection from infection by quickly eliminating cells infected by the founder virus at the portal of entry. This study establishes that the Indian rhesus macaque model for HTLV-2 infection is a suitable model to test this hypothesis, as it demonstrates that HTLV-2 targets systemic, lymphoid, as well as mucosal tissues of rhesus macaques. HTLV-2 infection induces humoral as well as cell-mediated immune responses, and importantly, T-cell responses can be found at both systemic and mucosal sites. In this study, we demonstrate that the viral and T-cell dynamics of macaques dually infected with HTLV-2 and SIV_mac251 are similar to those of macaques singly infected with SIV_mac251.     

Phylogenetic relationships and biogeographical patterns in Circum-Mediterranean subfamily Leuciscinae (Teleostei,Cyprinidae) inferred from both mitochondrial and nuclear data

Background  

Leuciscinae is a subfamily belonging to the Cyprinidae fish family that is widely distributed in Circum-Mediterranean region. Many efforts have been carried out to deciphering the evolutionary history of this group. Thus, different biogeographical scenarios have tried to explain the colonization of Europe and Mediterranean area by cyprinids, such as the "north dispersal" or the "Lago Mare dispersal" models. Most recently, Pleistocene glaciations influenced the distribution of leuciscins, especially in North and Central Europe. Weighing up these biogeographical scenarios, this paper constitutes not only the first attempt at deciphering the mitochondrial and nuclear relationships of Mediterranean leuciscins but also a test of biogeographical hypotheses that could have determined the current distribution of Circum-Mediterranean leuciscins.