Genetic tools, which can be used for the morphology study of specific neurons, pathway-selective connectome mapping, neuronal activity monitoring, and manipulation with a spatiotemporal resolution, have been widely applied to the understanding of complex neural circuit formation, interactions, and functions in rodents. Recently, similar genetic approaches have been tried in non-human primates (NHPs) in neuroscience studies for dissecting the neural circuits involved in sophisticated behaviors and clinical brain disorders, although they are still very preliminary. In this review, we introduce the progress made in the development and application of genetic tools for brain studies on NHPs. We also discuss the advantages and limitations of each approach and provide a perspective for using genetic tools to study the neural circuits of NHPs.
Animals ; Primates/physiology* ; Brain/physiology* ; Connectome

Evolutionary anthropology is the multidisciplinary field of social and natural sciences regarding the physiology and behavior of Homo Sapiens, and the relationship between human and other Hominoids like primates or ancient human species. Evolutionary anthropological approach toward psychiatry is a promising way to resolve the inter-disciplinary conflicts between different fields of study of the human mind. Evolutionary psychiatry is the specialized part of applied biologic anthropology and clinical psychiatry dealing with the biological causes of mental disorders, the impacts of cultural change toward the evolution of the human mind by studying the ancestry of mankind. I attempted to overview the history of evolutionary anthropology or neuroanthropology related to brain and mind, and the possibility of evolutionary psychiatry by showing the progress of academic and social issues regarding the ultimate causes of several mental illnesses.
Anthropology ; Brain ; Humans ; Mental Disorders ; Natural Science Disciplines ; Physiology ; Primates

The hippocampus has been extensively implicated in spatial navigation in rodents and more recently in bats. Numerous studies have revealed that various kinds of spatial information are encoded across hippocampal regions. In contrast, investigations of spatial behavioral correlates in the primate hippocampus are scarce and have been mostly limited to head-restrained subjects during virtual navigation. However, recent advances made in freely-moving primates suggest marked differences in spatial representations from rodents, albeit some similarities. Here, we review empirical studies examining the neural correlates of spatial navigation in the primate (including human) hippocampus at the levels of local field potentials and single units. The lower frequency theta oscillations are often intermittent. Single neuron responses are highly mixed and task-dependent. We also discuss neuronal selectivity in the eye and head coordinates. Finally, we propose that future studies should focus on investigating both intrinsic and extrinsic population activity and examining spatial coding properties in large-scale hippocampal-neocortical networks across tasks.
Animals ; Humans ; Spatial Navigation/physiology* ; Hippocampus/physiology* ; Primates ; Neurons/physiology* ; Theta Rhythm/physiology*

Human functional MRI studies in acute and various chronic pain conditions have revolutionized how we view pain, and have led to a new theory that complex multi-dimensional pain experience (sensory-discriminative, affective/motivational, and cognitive) is represented by concurrent activity in widely-distributed brain regions (termed a network or pain matrix). Despite these breakthrough discoveries, the specific functions proposed for these regions remain elusive, because detailed electrophysiological characterizations of these regions in the primate brain are lacking. To fill in this knowledge gap, we have studied the cortical areas around the central and lateral sulci of the non-human primate brain with combined submillimeter resolution functional imaging (optical imaging and fMRI) and intracranial electrophysiological recording. In this mini-review, I summarize and present data showing that the cortical circuitry engaged in nociceptive processing is much more complex than previously recognized. Electrophysiological evidence supports the engagement of a distinct nociceptive-processing network within SI (i.e., areas 3a, 3b, 1 and 2), SII, and other areas along the lateral sulcus. Deafferentation caused by spinal cord injury profoundly alters the relationships between fMRI and electrophysiological signals. This finding has significant implications for using fMRI to study chronic pain conditions involving deafferentation in humans.
Animals ; Cerebral Cortex ; diagnostic imaging ; physiopathology ; Humans ; Pain ; diagnostic imaging ; pathology ; physiopathology ; Primates ; Touch ; physiology

The epididymal protease inhibitor (Eppin) abounds in human semen and on the surface of human spermatozoa, specifically produced by the testis and epididymis. Recombinant Eppin has effected infertility in the immunized monkey and promises to be an effective vaccine for human immunocontraception. This article reviews the advances in the studies of Eppin gene and protein construction and its molecular mechanism of causing immunologic infertility and regulating PSA hydrolysis of Semenogelin.
Animals ; Humans ; Infertility, Male ; immunology ; Male ; Mice ; Primates ; Proteinase Inhibitory Proteins, Secretory ; chemistry ; genetics ; immunology ; physiology ; Seminal Vesicle Secretory Proteins ; physiology ; Vaccines, Contraceptive

During liquefaction of the ejaculate, the semen coagulum proteins semenogelin I (SEMG1) and semenogelin II (SEMG2) are degraded to low molecular mass fragments by kallikrein-related peptidase 3 (KLK3), also known as prostate-specific antigen. Semenogelin molecules initiate their own destruction by chelating Zn(2+) that normally would completely inhibit the proteolytic activity of KLK3. In a similar way, semenogelins might regulate the activity of kallikrein-related peptidases in the epididymis, something that might be of importance for the maturation of spermatozoa or generation of anti-bacterial peptides. Studies on the evolution of semen coagulum proteins have revealed that most of them carry an exon that displays a rapid and unusual evolution. As a consequence, homologous proteins in rodents and primates show almost no conservation in primary structure. Further studies on their evolution suggest that the progenitor of the semen coagulum proteins probably was a protease inhibitor that might have displayed antimicrobial activity. The semenogelin locus on chromosome 20 contains at least 17 homologous genes encoding probable protease inhibitors with homology to semen coagulum proteins. All of these are highly expressed in the epididymis where they, similar to the semenogelins, could affect the maturation of spermatozoa or display antibacterial properties.
Animals ; Centromere ; Chromosome Mapping ; Chromosomes, Human, Pair 20 ; Ejaculation ; Epididymis ; physiology ; Evolution, Molecular ; Gene Expression Regulation ; Humans ; Male ; Primates ; Semen ; physiology ; Seminal Vesicle Secretory Proteins ; genetics

The epididymal beta-defensins have evolved by repeated gene duplication and divergence to encode a family of proteins that provide direct protection against pathogens and also support the male reproductive tract in its primary function. Male tract defensins also facilitate recovery from pathogen attack. The beta-defensins possess ancient conserved sequence and structural features widespread in multi-cellular organisms, suggesting fundamental roles in species survival. Primate SPAG11, the functional fusion of two ancestrally independent beta-defensin genes, produces a large family of alternatively spliced transcripts that are expressed according to tissue-specific and species-specific constraints. The complexity of SPAG11 varies in different branches of mammalian evolution. Interactions of human SPAG11D with host proteins indicate involvement in multiple signaling pathways.
Amino Acid Sequence ; Animals ; Antigens, Surface ; chemistry ; genetics ; physiology ; Chromosome Mapping ; Conserved Sequence ; Epididymis ; physiology ; Evolution, Molecular ; Glycopeptides ; chemistry ; genetics ; physiology ; Humans ; Male ; Mammals ; Models, Molecular ; Molecular Sequence Data ; Primates ; Protein Conformation ; beta-Defensins ; genetics ; physiology

Transplantation would be the only way to cure the end-stage organ failure involving heart, lung, liver, kidney and pancreas. The replacement of the parts of the body damaged to lose its function or lost to trauma must be a dream of human-being. Human history is replete with chimeras, from sphinxes to mermaids, making one wonder if the ancients might actually have dreamed of what now is called 'xenotransplantation'. In the 20th century, the transplantation of organs and tissues to cure disease has become a clinical reality. The development in the fields of surgical techniques, physiology and immunology attributed to the successful transplantation in human. In the center of the successful transplantation lies the progress in understanding the cellular and molecular biology of immune system which led to the development of immunosuppressive drugs and the invention of the concept of immunological tolerance. The mandatory side effects of immunosuppressive drugs including infection and cancer forced us to search alternative approaches along with the development of new immunosuppressive agents. Among the alternative approaches, the induction of a state of immunologic tolerance would be the most promising and the most generic applicability as a future therapy. Recent reports documenting long-term graft survival without immunosuppression suggest that tolerance-based therapies may become a clinical reality. Last year, we saw the epoch making success of overcoming hyperacute rejection in porcine to primate xenotransplantation which will lead porcine to human xenotransplantation to clinical reality. In this review, I dare to summarize the development of transplantation immunology from the perspective of history.
Allergy and Immunology ; Chimera ; Graft Survival ; Heart ; Humans ; Immune System ; Immunosuppression ; Immunosuppressive Agents ; Inventions ; Kidney ; Liver ; Lung ; Molecular Biology ; Pancreas ; Physiology ; Primates ; Transplantation Immunology* ; Transplantation, Heterologous