A Flow Induced Autoimmune Response and Accelerated Senescence of Red Blood Cells in Cardiovascular Devices

Red blood cells (RBCs) passing through heart pumps, prosthetic heart valves and other cardiovascular devices undergo early senescence attributed to non-physiologic forces. We hypothesized that mechanical trauma accelerates aging by deformation of membrane proteins to cause binding of naturally occurring IgG. RBCs isolated from blood of healthy volunteers were exposed to high shear stress in a viscometer or microfluidics channel to mimic mechanical trauma and then incubated with autologous plasma. Increased binding of IgG was observed indicating forces caused conformational changes in a membrane protein exposing an epitope(s), probably the senescent cell antigen of band 3. The binding of immunoglobulin suggests it plays a role in the premature sequestration and phagocytosis of RBCs in the spleen. Measurement of IgG holds promise as a marker foreshadowing complications in cardiovascular patients and as a means to improve the design of medical devices in which RBCs are susceptible to sublethal trauma.Research in this publication was supported by the National Institutes of Health Small Business Innovation Research program under award number R44HL114246 as a subcontract to the University of Oklahoma from VADovations and NIH grant R21HL132286 to DWS and TAS. Open Access fees paid for in whole or in part by the University of Oklahoma Libraries.Ye

Habitat partitioning by native and alien fishes and decapods in novel habitats of the upper San Francisco Estuary

The rate of alien species introductions is increasing in aquatic ecosystems, but many invaders appear to co-exist with previous residents, resulting in persistent mixed assemblages of non-coevolved organisms. This study focuses on species’ habitat partitioning of edge habitats in the San Francisco Estuary, a highly altered novel ecosystem that supports mixed assemblages of native and alien fishes and macroinvertebrates. We used minnow traps to address two questions about the demersal assemblage along levees in large tidal sloughs: (1) What is the relative abundance of demersal fish and macroinvertebrate species in shallow water adjacent to levee edges? and (2) Do native and alien species occupy different habitat types? We used our findings to address the broader question: do native and non-native species show habitat segregation, suggesting development of assemblage structure similar to that of co-evolved assemblages? Results indicate that habitat partitioning occurs among some clusters of species, but not all. Native Prickly Sculpin was found most often near riprapped levee edges, while alien Yellowfin Goby occupied adjacent muddy habitat, and the alien Shimofuri Goby showed no preference. Where two non-native species of caridean shrimp co-occurred, Siberian Prawn occupied unvegetated mud, while Oriental Grass Shrimp used primarily riprap. However, when only Siberian Prawn was present, it showed no preference for habitat type. Habitat associations changed slightly in response to seasonal shifts in habitat and spawning requirements. This study demonstrates that non-coevolved assemblages of organisms can develop resource partitioning to assist co-existence in novel habitats

Henneguya sp. in yellowfin goby Acanthogobius flavimanus from the San Francisco Estuary

Myxozoan spores were observed in yellowfin goby Acanthogobius flavimanus collected from Suisun Marsh, San Francisco Estuary (SFE). Although histopathological changes associated with the parasite were not observed, the spores formed plasmodia that partially blocked the gastric and intestinal mucosa and gut lumen and may affect the perfomance and survival of the yellowfin goby. Morphological features of the spores resembled Henneguya sp. and molecular analysis of the 18S ribosomal DNA (Domain III) confirmed close similarity to H. rhinogobii and H. pseudorhinogobii isolated from the Japanese freshwater goby. The yellowfin goby myxozoan however, is likely an undescribed species based on phylogenetic analysis and morphologic features. Detailed description of vegetative and spore stages are currently lacking for proposal to a new species of Henneguya. A specific PCR test was developed, which confirmed a 100% prevalence of the parasite among randomly collected gobies in group 1 (N = 30) and group 2 (N = 15) at termination of the study at one month in captivity. The myxozoan was also detected from 18 gobies (12%) that died in the first group within two weeks in captivity. Apparently healthy gobies that served as controls did not reveal the presence of the myxozoan by PCR. This study documents the occurrence of a potentially new species of myxozoan in the yellowfin goby and underscores the detection of a parasitic infection in an introduced fish in the SFE. Although the pathogenesis of the myxozoan was not assessed and the prevalence as reported here is restricted to a comparatively small collection site in Suisun slough, the reemergence, identification, and ecological relevance of the parasite on goby populations in the SFE may be investigated in the future using the specific diagnostic tool developed in this study. ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (doi:10.1186/2193-1801-2-420) contains supplementary material, which is available to authorized users