Specializations of the granular prefrontal cortex of primates: implications for cognitive processing.
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The biological underpinnings of human intelligence remain enigmatic. There remains the greatest confusion and controversy regarding mechanisms that enable humans to conceptualize, plan, and prioritize, and why they are set apart from other animals in their cognitive abilities. Here we demonstrate that the basic neuronal building block of the cerebral cortex, the pyramidal cell, is characterized by marked differences in structure among primate species. Moreover, comparison of the complexity of neuron structure with the size of the cortical area/region in which the cells are located revealed that trends in the granular prefrontal cortex (gPFC) were dramatically different to those in visual cortex. More specifically, pyramidal cells in the gPFC of humans had a disproportionately high number of spines. As neuron structure determines both its biophysical properties and connectivity, differences in the complexity in dendritic structure observed here endow neurons with different computational abilities. Furthermore, cortical circuits composed of neurons with distinguishable morphologies will likely be characterized by different functional capabilities. We propose that 1. circuitry in V1, V2, and gPFC within any given species differs in its functional capabilities and 2. there are dramatic differences in the functional capabilities of gPFC circuitry in different species, which are central to the different cognitive styles of primates. In particular, the highly branched, spinous neurons in the human gPFC may be a key component of human intelligence. (+info)
Arsenic counteracts human immunodeficiency virus type 1 restriction by various TRIM5 orthologues in a cell type-dependent manner.
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Arsenic trioxide (As(2)O(3)) increased human immunodeficiency virus type 1 (HIV-1) infectivity when particular Homo sapiens and Cercopithecus aethiops cell lines were used as targets. Knockdown of human TRIM5alpha by RNA interference eliminated the As(2)O(3) effect, demonstrating that the drug acts by modulating the activity of this retroviral restriction factor. In contrast, HIV-1 infectivity in target cell lines from other primate species (Cercopithecus tantalus, Macaca mulatta, and Aotus trivirgatus) was not increased by As(2)O(3), despite the potent TRIM5-dependent HIV-1 restriction activity that these cells exhibit. To determine if As(2)O(3) responsiveness is characteristic of particular TRIM5 orthologues and not others, TRIM5 cDNAs from these five primate species were transduced into cat fibroblasts, which lack endogenous HIV-1 restriction activity and, therefore, responsiveness to As(2)O(3). In this context, the HIV-1 restriction activity conferred by all TRIM5 orthologues was largely eliminated by As(2)O(3). The effect of As(2)O(3) on HIV-1 restriction is thus shared by different TRIM5 orthologues but dependent on factors specific to the cell line in which TRIM5 is expressed. (+info)
Immunization of Aotus monkeys with recombinant cysteine-rich interdomain region 1 alpha protects against severe disease during Plasmodium falciparum reinfection.
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BACKGROUND: After continuous exposure to malarial infections in regions of Africa where malaria is hyperendemic, children attain clinical immunity. This immunity results, in part, from the acquisition of antibodies against a large repertoire of variant antigens expressed on the surface of infected erythrocytes, such as the Plasmodium falciparum erythrocyte membrane protein 1 (PfEMP1). We determined whether a subunit vaccine to a portion of PfEMP1 could induce protection in nonhuman primates. METHODS: We immunized Aotus nancymai monkeys with PfEMP1 recombinant (r) cysteine-rich interdomain region 1 alpha (CIDR1 alpha ) and infected them twice with P. falciparum Vietnam Oak Knoll strain, the most virulent strain of P. falciparum in Aotus monkeys--each infection expressed a different PfEMP1. Anti-PfEMP1 antibodies were analyzed by enzyme-linked immunosorbent assay against rCIDR1 alpha and by flow cytometry against infected erythrocytes. RESULTS: Immunization with rCIDR1 alpha was not protective, despite delayed patency during the first infection, but it protected monkeys against severe anemia during reinfection. Protection against anemia is associated with a more rapid increase in antibodies to PfEMP1. CONCLUSION: The findings of reduced severe disease in rCIDR1 alpha -vaccinated Aotus monkeys provide experimental support for a PfEMP1-based vaccine to protect African children against severe malarial disease. Such vaccination may function by priming for the accelerated acquisition of immunity to new PfEMP1 variants. (+info)
Analysis of newly identified low copy AluYj subfamily.
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Human specific AluY elements were investigated by comparative analysis between human chromosome 21 and chimpanzee chromosome 22. Human specific AluY element was identified on human chromosome 21q22 (accession no. AL163282), and then that was a new member of AluYj subfamily. From the bioinformatic analysis, AluYj subfamily was investigated in human whole genome using AluYj4 consensus sequence (accession no. AL163282). Thirteen members of the AluYj4 elements (4 diagnostic mutations) and eight members of the AluYj3 elements (3 diagnostic mutations) were identified with distinct diagnostic mutation from AluY consensus sequence. The results of the molecular clock calculation of non-CpG region substitution indicated that, AluYj4 elements (2.1 million years old) may be proliferated more recent time than AluYj3 elements (14.1 million years old). For the verification of recent insertion time, four of AluYj4 elements (ch2-AC017101, ch10-AC044786, ch12-AC007656 and ch21-AL163282) from human chromosomes 2, 10, 12, 21 were analyzed by PCR amplification using various human and primate DNA samples. Though, no polymorphism was detected in human population, we identified the new AluYj4 subfamily as the human specific elements. (+info)
Experience-dependent adult cortical plasticity requires cognitive association between sensation and reward.
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We tested the involvement of cognition in adult experience-dependent neuroplasticity using primate cortical implants. In a prior study, learning an operant sensory discrimination increased cortical excitability and target selectivity. Here, the prior task was separated into three behavioral phases. First, naive animals were exposed to stimulus-reward pairings from the prior study. These yoked animals did not have to discriminate to be rewarded and did not learn the discrimination. The plasticity observed in the prior study did not occur. Second, the animals were classically conditioned to discriminate the same stimuli in a simplified format. Learning was accompanied by increased sensory response strength and an increased range of sensory inputs eliciting responses. The third study recreated the original operant discrimination, and selectivity for task targets increased. These studies demonstrate that cognitive association between sensory stimuli and reinforcers accompanies adult experience-dependent cortical plasticity and suggest that selectivity in representation and action are linked. (+info)
Antigenic and genomic identity between simian herpesvirus aotus type 2 and bovine herpesvirus type 4.
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Herpesvirus aotus type 2 (HVA-2) was isolated from a culture of kidney cells from a healthy owl monkey (Aotus trivirgatus). Bovine herpesvirus type 4 (BHV-4) is frequently isolated from diseased and even healthy cattle and occasionally from sheep, wild ruminants and cats. The two viruses are related antigenically, as was revealed by an indirect fluorescent antibody test using polyclonal antisera from experimentally infected rabbits or monoclonal antibodies raised against six BHV-4 proteins, three of which were glycosylated. The genome structures of the two viruses consist of a unique central sequence flanked at both ends by G + C-rich tandem repeats. Restriction maps (produced using EcoRI, BamHI and HindIII) of these two viruses were nearly identical but the unique sequence of the HVA-2 genome possessed two additional BamHI sites. Four genomic regions of variable size were detected, two located in the unique part, one in the repetitive part and one in the left junction between the unique and the repeated part of the genome; these slight variations were similar to those observed between various BHV-4 isolates. These results suggest that HVA-2 and BHV-4 belong to the same virus species; HVA-2 could be either a BHV-4 contaminant of owl monkey kidney cell cultures or an isolate from an owl monkey accidentally infected with BHV-4. (+info)
Unequal representation of cardinal vs. oblique orientations in the middle temporal visual area.
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A possible neurobiological basis for the "oblique effect" is linked to the finding that more neural machinery is devoted to processing cardinal vs. oblique orientations in primary visual cortex (V1). We used optical imaging to determine whether more territory is devoted to processing horizontal and vertical orientations than oblique orientations in owl monkey middle temporal visual area (MT), a visual area highly sensitive to moving stimuli. We found that more of MT was devoted to representing cardinal than oblique orientations, and that the anisotropy was more prominent in parts of MT representing central vision (< or =10 degrees). Neural responses to orientations of 0 degrees and 90 degrees were also greater than those to 45 degrees and 135 degrees . In comparison, an overrepresentation of cardinal orientations in the representation of central vision in owl monkey V1 was relatively small and inconsistent. Our data could explain the greater sensitivity to motion discrimination when stimuli are moved along cardinal meridians and suggest that the neural machinery necessary to explain the motion oblique effect either originates in MT or is enhanced at this level. (+info)
Immune response of monkeys to lymphotrophic herpesvirus antigens.
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Herpesvirus saimiri induces leukemia and/or malignant lymphoma when inoculated into different species of nonhuman primates including marmosets and owl monkeys. No malignant disease, however, has been recognized in the natural host for this virus, the squirrel monkey, although a high percentage of these monkeys are chronically infected with H. saimiri. Furthermore, one species of marmosets, as well as capuchin and some owl monkeys, fail to develop lymphoma following experimental virus infection but developed a chronic infection similar to that noted in the natural host. The availability of susceptible and resistant species made it possible to attempt to delineate those humoral and cellular immune parameters that might correlate both with tumor induction and resistance. The findings from these investigations are reviewed and discussed in relation to vaccine studies in this system as a model for a human herpesvirus vaccine. (+info)