Most tissues of the body harbor resident macrophages. Yet, macrophages are phenotypically and functionally heterogeneous, a reflection of the diversity of tissue environments in which they reside. In addition to maintaining tissue homeostasis and responding to invading pathogens, macrophages contribute to numerous pathological processes, making them an attractive potential target for therapeutic intervention. To do so, however, will require a detailed understanding of macrophage origins, the mechanisms that maintain them, and their functional attributes in different tissues and disease contexts.Macrophage ontology has long engendered controversy 1,2 . Nevertheless, the concept that tissue macrophages develop exclusively from circulating bone marrow-derived monocytes has prevailed for nearly a half century 3 . Accumulated evidence, however, including recent studies using sophisticated fate-mapping approaches, have determined that some tissue macrophages and their precursors are established embryonically in the yolk sac (YS) and fetal liver before the onset of definitive hematopoiesis [4][5][6][7][8][9][10][11] . Regardless of their origin, tissue macrophages can maintain themselves in adulthood by self-renewal independent of blood monocytes 12,13 .Gene-expression profiling of macrophage populations from several tissues has established that only a small number of transcripts are expressed by all macrophages 14 , indicating the importance of the context provided by the tissue when studying macrophage function in homeostasis and disease. The normal arterial wall contains many tissue resident macrophages that contribute crucially to immunity, tissue homeostasis and wound healing following injury 15. However, the regulatory networks, ancestry and mechanisms that maintain arterial macrophages remain unknown.Using gene expression analysis, we show that arterial macrophages constitute a distinct population among tissue macrophages. Multiple fate mapping approaches demonstrated that arterial macrophages arise embryonically from CX 3 CR1 + precursors and postnatally from bone marrow-derived monocytes that colonize the tissue during a brief period immediately after birth.In adulthood, arterial macrophages were maintained by CX 3 CR1-CX 3 CL1 interactions and local proliferation without significant further contribution from blood monocytes. Self-renewal also sustained arterial macrophages after severe depletion during polymicrobial sepsis, rapidly restoring them to functional homeostasis. ResultsPhenotype and gene expression profiling of arterial macrophages. (Fig. 1a).Principal component analysis revealed a distinct transcriptome in arterial macrophages, which clustered near other macrophage populations including microglia, alveolar macrophages, and splenic red pulp macrophages, as characterized by the Immunological Genome Consortium (Fig. 1b, Supplementary Fig. 1a) 14. Stringent comparison of gene-expression profiles among arterial, brain, alveolar and splenic red pulp macrophages revealed 212 transcripts that were at ...
In this paper, a novel meta surface is proposed for super-focusing. This surface contains two slits surrounded by finite corrugations for enhanced focusing. This simple surface has the super-focusing ability to focus both near and far field light in a hot-spot with an FWHM much smaller than half the wavelength of the incident light. The structure is suitable for one dimensional and two dimensional focusing applications. The enhanced transmission through the double slit is also utilized for directional beaming over a wide cone of angles. Moreover, various structures have been proposed for super-focusing in the visible and ultraviolet wavelengths. The proposed structure lends itself to various applications, including subwavelength imaging and nanolithography.
A number of polymerase chain reaction (PCR) inhibitors have been identified from biological and environmental samples. By and large, such substances are treated as random nuisances and contaminants with alternate functions; their inhibitory effects on DNA replication being a coincidental property of their molecular structure. Here, we demonstrate the presence of a localized PCR inhibitor in the foregut of the porcelain crab Petrolisthes rufescens (Anomura: Porcellanidae) from the Red Sea. The inhibitor precluded amplification of 28s, 16s and 18s gene sequences effectively but lost activity at 10−2 dilutions from initial concentration. Heat treatment was ineffective in arresting inhibition and spectrophotometric techniques suggested that the inhibitor was not a melanin-type compound. The compound was not detected from midgut, hindgut, or gills of the crab. Activity of the inhibitor was precluded when samples were treated with suspensions from the midgut, suggesting that enzymatic degradation of the inhibitor likely happens at that part of the gut. As many microbial pathogens invade their hosts via ingestion, we suggest the presence of the localized inhibitor could carry a defensive or immunological role for P. rufescens. The identity of the inhibitory molecule remains unknown.
In this paper, a novel structure of nano optical tweezers using triple-slit plasmonic grating structure is introduced and analyzed. The tweezers have deep potential wells that can trap sub-10 nm dielectric particle stably and efficiently. The resultant 50 KT potential well provides tight 2D trapping to the particle. The plasmonic device allows for steering the particle by simply changing the angle of the incident plane. This simple control allows efficient manipulation of the trapped particle over wide range of angles.
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