Vascular Pattern Analysis for the Prediction of Clinical Behaviour in Pheochromocytomas and Paragangliomas

Pheochromocytomas (PCCs) are neuroendocrine tumors arising from chromaffin cells of the adrenal medulla. Related tumors that arise from the paraganglia outside the adrenal medulla are called paragangliomas (PGLs). PCC/PGLs are usually benign, but approximately 17% of these tumors are malignant, as defined by the development of metastases. Currently, there are no generally accepted markers for identifying a primary PCC or PGL as malignant. In 2002, Favier et al. described the use of vascular architecture for the distinction between benign and malignant primary PCC/PGLs. The aim of this study was to validate the use of vascular pattern analysis as a test for malignancy in a large series of primary PCC/PGLs. Six independent observers scored a series of 184 genetically well-characterized PCCs and PGLs for the CD34 immunolabeled vascular pattern and these findings were correlated to the clinical outcome. Tumors were scored as malignant if an irregular vascular pattern was observed, including vascular arcs, parallels and networks, while tumors with a regular pattern of short straight capillaries were scored as benign. Mean sensitivity and specificity of vascular architecture, as a predictor of malignancy was 59.7% and 72.9%, respectively. There was significant agreement between the 6 observers (mean κ = 0.796). Mean sensitivity of vascular pattern analysis was higher in tumors >5 cm (63.2%) and in genotype cluster 2 tumors (100%). In conclusion, vascular pattern analysis cannot be used in a stand-alone manner as a prognostic tool for the distinction between benign and malignant PCC, but could be used as an indicator of malignancy and might be a useful tool in combination with other morphological characteristics.     

Efficient Differentiation of Steroidogenic and Germ-Like Cells from Epigenetically-Related iPSCs Derived from Ovarian Granulosa Cells

To explore restoration of ovarian function using epigenetically-related, induced pluripotent stem cells (iPSCs), we functionally evaluated the epigenetic memory of novel iPSC lines, derived from mouse and human ovarian granulosa cells (GCs) using c-Myc, Klf4, Sox2 and Oct4 retroviral vectors. The stem cell identity of the mouse and human GC-derived iPSCs (mGriPSCs, hGriPSCs) was verified by demonstrating embryonic stem cell (ESC) antigen expression using immunocytochemistry and RT-PCR analysis, as well as formation of embryoid bodies (EBs) and teratomas that are capable of differentiating into cells from all three germ layers. GriPSCs’ gene expression profiles associate more closely with those of ESCs than of the originating GCs as demonstrated by genome-wide analysis of mRNA and microRNA. A comparative analysis of EBs generated from three different mouse cell lines (mGriPSCs; fibroblast-derived iPSC, mFiPSCs; G4 embryonic stem cells, G4 mESCs) revealed that differentiated mGriPSC-EBs synthesize 10-fold more estradiol (E2) than either differentiated FiPSC- or mESC-EBs under identical culture conditions. By contrast, mESC-EBs primarily synthesize progesterone (P4) and FiPSC-EBs produce neither E2 nor P4. Differentiated mGriPSC-EBs also express ovarian markers (AMHR, FSHR, Cyp19a1, ER and Inha) as well as markers of early gametogenesis (Mvh, Dazl, Gdf9, Boule and Zp1) more frequently than EBs of the other cell lines. These results provide evidence of preferential homotypic differentiation of mGriPSCs into ovarian cell types. Collectively, our data support the hypothesis that generating iPSCs from the desired tissue type may prove advantageous due to the iPSCs’ epigenetic memory.     

The Subjective Visual Vertical and the Subjective Haptic Vertical Access Different Gravity Estimates

The subjective visual vertical (SVV) and the subjective haptic vertical (SHV) both claim to probe the underlying perception of gravity. However, when the body is roll tilted these two measures evoke different patterns of errors with SVV generally becoming biased towards the body (A-effect, named for its discoverer, Hermann Rudolph Aubert) and SHV remaining accurate or becoming biased away from the body (E-effect, short for Entgegengesetzt-effect, meaning “opposite”, i.e., opposite to the A-effect). We compared the two methods in a series of five experiments and provide evidence that the two measures access two different but related estimates of gravitational vertical. Experiment 1 compared SVV and SHV across three levels of whole-body tilt and found that SVV showed an A-effect at larger tilts while SHV was accurate. Experiment 2 found that tilting either the head or the trunk independently produced an A-effect in SVV while SHV remained accurate when the head was tilted on an upright body but showed an A-effect when the body was tilted below an upright head. Experiment 3 repeated these head/body configurations in the presence of vestibular noise induced by using disruptive galvanic vestibular stimulation (dGVS). dGVS abolished both SVV and SHV A-effects while evoking a massive E-effect in the SHV head tilt condition. Experiments 4 and 5 show that SVV and SHV do not combine in an optimally statistical fashion, but when vibration is applied to the dorsal neck muscles, integration becomes optimal. Overall our results suggest that SVV and SHV access distinct underlying gravity percepts based primarily on head and body position information respectively, consistent with a model proposed by Clemens and colleagues.     

Increase in Dickkopf-1 Serum Level in Recent Spondyloarthritis. Data from the DESIR Cohort

Objectives

To investigate DKK-1 and SOST serum levels among patients with recent inflammatory back pain (IBP) fulfilling ASAS criteria for SpA and associated factors.

Methods

The DESIR cohort is a prospective, multicenter French cohort of 708 patients with early IBP (duration >3 months and <3 years) suggestive of AxSpA. DKK-1 and SOST serum levels were assessed at baseline and were compared between the subgroup of patients fulfilling ASAS criteria for SpA (n = 486; 68.6%) and 80 healthy controls.

Results

Mean SOST serum levels were lower in ASAS+ patients than healthy controls (49.21 ± 25.9 vs. 87.8 ± 26 pmol/L; p<0.0001). In multivariate analysis, age (p = 5.4 10⁻⁹), CRP level (p<0.0001) and serum DKK-1 level (p = 0.001) were associated with SOST level. Mean DKK-1 serum levels were higher in axial SpA patients than controls (30.03 ± 15.5 vs. 11.6 ± 4.2 pmol/L; p<0.0001). In multivariate analysis, DKK-1 serum levels were associated with male gender (p = 0.03), CRP level (p = 0.006), SOST serum level (p = 0.002) and presence of sacroiliitis on radiography (p = 0.05). Genetic association testing of 10 SNPs encompassing the DKK-1 locus failed to demonstrate a significant contribution of genetics to control of DKK-1 serum levels.

Conclusions

DKK-1 serum levels were increased and SOST levels were decreased among a large cohort of patients with early axial SpA compared to healthy controls. DKK-1 serum levels were mostly associated with biological inflammation and SOST serum levels.     

Resistance to desiccation in aquatic invasive snails and implications for their overland dispersal

At least 30 species of nonindigenous freshwater snails have invaded North America. The risk of these snails invading new lakes depends upon their ability to survive overland transport. We first reviewed published laboratory experiments using freshwater snails, which show numerous species are able to tolerate days of air exposure. We then tested tolerance to drying of three species of invasive aquatic snails that are widespread in Wisconsin: Bithynia tentaculata, Cipangopaludina chinensis, and Viviparus georgianus. In a series of seven experiments, we simulated boater transport by placing snails individually in mesh bags, hung outdoors, and confined in a screen tent. The screen roof allowed exposure to both sun and rain, and an on-site weather station recorded temperature, precipitation, and humidity. All three species exhibited high survivorship, with some individuals alive at the end of most experiments: 42 days for B. tentaculata and V. georgianus and 63 days for C. chinensis. Viable young were released by C. chinensis after 54 days of exposure. Overall, our results indicate that these invasive snails should readily survive long periods of transport overland, indicating a need for continued vigilance of recreational boaters entering lakes.     

Natural and artificial routes to pluripotency

Pluripotent cells of the blastocyst inner cell mass (ICM) and their in vitro derivatives, embryonic stem (ES) cells, contain genomes in an epigenetic state that are poised for subsequent differentiation. Their chromatin is hyperdynamic in nature and relatively uncondensed. In addition, a large number of genes are expressed at low levels in both ICM and ES cells. Also, the chromatin of naturally pluripotent cells contains specialized histone modification patterns such as bivalent domains, which mark genes destined for later developmentally-regulated expression states. Female pluripotent cells contain X chromosomes that have yet to undergo the process of X chromosome inactivation. Collectively, these features of very early embyronic chromatin are required for the successful specification and production of differentiated cell lineages. Artificial reprogramming methods such as somatic nuclear transfer (SCNT), ES cell fusion-mediated reprogramming (FMR), and induced pluripotency (iPS) yield pluripotent cells that recapitulate many features of naturally pluripotent cells, including many of their epigenetic features. However, the route to pluripotent epigenomic states in artificial pluripotent cells differs drastically from that of their natural counterparts. Here, we compare and contrast the differing routes to pluripotency under natural and artificial conditions. In addition, we discuss the intrinsically metastable nature of the pluripotent epigenome and consider epigenetic aspects of reprogramming that may lead to incomplete or inaccurate reprogrammed states. Artificial methods of reprogramming hold immense promise for the development of autologous cell graft sources and for the development of cell culture models for human genetic disorders. However, the utility of artificially reprogrammed cells is highly dependent on the fidelity of the reprogramming process and it is therefore critically important to assess the epigenetic similarities between embryonic and induced pluripotent stem cells.     

Proteomic analysis identifies in vivo candidate matrix metalloproteinase‐9 substrates in the left ventricle post‐myocardial infarction

Matrix metalloproteinase‐9 (MMP‐9) deletion has been shown to improve remodeling of the left ventricle post‐myocardial infarction (MI), but the mechanisms to explain this improvement have not been fully elucidated. MMP‐9 has a broad range of in vitro substrates, but relevant in vivo substrates are incompletely defined. Accordingly, we evaluated the infarct regions of wild‐type (wt) and MMP‐9 null (null) mice using a proteomic strategy. Wt and null groups showed similar infarct sizes (48±3 in wt and 45±3% in null), indicating that both groups received an equal injury stimulus. Left ventricle infarct tissue was homogenized and analyzed by 2‐DE and MS. Of 31 spot intensity differences, the intensities of 9 spots were higher and 22 spots were lower in null mice compared to wt (all p<0.05). Several extracellular matrix proteins were identified in these spots by MS, including fibronectin, tenascin‐C, thrombospondin‐1, and laminin. Fibronectin was observed on the gels at a lower than expected molecular weight in the wt group, which suggested substrate cleavage, and the lower molecular weight spot was observed at lower intensity in the MMP‐9 null group, which suggested cleavage by MMP‐9. Immunoblotting confirmed the presence of fibronectin cleavage products in the wt samples and lower levels in the absence of MMP‐9. In conclusion, examining infarct tissue from wt and MMP‐9 null mice by proteomic analysis provides a powerful and unique method to identify in vivo candidate MMP substrates.     

Interaction of Mycobacterium ulcerans with Mosquito Species: Implications for Transmission and Trophic Relationships

Mycobacterium ulcerans is the causative agent of Buruli ulcer, a severe necrotizing skin disease that causes significant morbidity in Africa and Australia. Person-to-person transmission of Buruli ulcer is rare. Throughout Africa and Australia infection is associated with residence near slow-moving or stagnant water bodies. Although M. ulcerans DNA has been detected in over 30 taxa of invertebrates, fish, water filtrate, and plant materials and one environmental isolate cultured from a water strider (Gerridae), the invertebrate taxa identified are not adapted to feed on humans, and the mode of transmission for Buruli ulcer remains an enigma. Recent epidemiological reports from Australia describing the presence of M. ulcerans DNA in adult mosquitoes have led to the hypothesis that mosquitoes play an important role in the transmission of M. ulcerans. In this study we have investigated the potential of mosquitoes to serve as biological or mechanical vectors or as environmental reservoirs for M. ulcerans. Here we show that Aedes aegypti, A. albopictus, Ochlerotatus triseriatus, and Culex restuans larvae readily ingest wild-type M. ulcerans, isogenic toxin-negative mutants, and Mycobacterium marinum isolates and remain infected throughout larval development. However, the infections are not carried over into the pupae or adult mosquitoes, suggesting an unlikely role for mosquitoes as biological vectors. By following M. ulcerans through a food chain consisting of primary (mosquito larvae), secondary (predatory mosquito larva from Toxorhynchites rutilus septentrionalis), and tertiary (Belostoma species) consumers, we have shown that M. ulcerans can be productively maintained in an aquatic food web.Infection with Mycobacterium ulcerans, the causative agent of Buruli ulcer (BU) disease, is associated with residence near stagnant and slow-moving water bodies in areas in which the disease is endemic (5, 36, 40, 45, 50). A plasmid-encoded macrolide toxin, mycolactone, is the primary virulence determinant of M. ulcerans (8, 41). Biting aquatic insects, such as several taxa in the Belostomatidae and Naucoridae families (Hemiptera), have been suggested as possible vectors of M. ulcerans in several laboratory experiments (16, 19, 20, 24, 31, 32); however, there is little empirical evidence from field studies to support the contention that these biting insects vector M. ulcerans to humans (2). In Melbourne, Australia, recent epidemiological evidence suggests that mosquitoes may serve as vectors in the transmission of BU disease (10, 11, 12, 34, 35). In this study, 957 pools consisting of over 11,000 mosquitoes of four different species were collected and tested by quantitative PCR (qPCR) for the presence of M. ulcerans DNA, and positive results were obtained from 48 of 957 pools tested (10). Of the 48 positive pools, 13 were positive for PCR directed against two insertion sequences (IS2404 and IS2606) as well as against sequence based on the ketoreductase domain of the mycolactone toxin genes. Because all of these target sequences are present multiple times in the genome, it was difficult to assign genome equivalents to these results. However, data from laboratory experiments suggested that 10 to 100 M. ulcerans isolates per mosquito were present in the positive pools. Epidemiological work also suggested a seasonal relationship between Buruli ulcer and mosquito-vectored diseases in Australia (12). These studies are extremely provocative and raise a number of questions for further work. What is the prevalence of M. ulcerans in other invertebrate taxa in the same environment? What is the infection rate in equal numbers of mosquitoes collected from areas in which the disease is not endemic? Is it possible to obtain physical evidence for the presence of M. ulcerans through microscopy or culture of mosquitoes in areas in which the disease is endemic, and, finally, what can we learn from laboratory studies concerning the interaction between mosquitoes and M. ulcerans?The recent work from Australia suggesting that M. ulcerans is spread by mosquitoes is particularly significant because adult mosquitoes are the most important group of insects in the spread of human disease. They may serve as biological vectors that provide a major environment for pathogen replication, as in malaria or yellow fever, or as mechanical vectors that carry organisms between hosts without serving as a site of replication (1, 4, 7, 9, 38). Larval mosquitoes are common in habitats associated with BU disease, most notably lentic or standing water habitats, and feed by filtering particles in the water using labral head fans (21). Members of some genera (i.e., Anopheles) aggregate at the air-water interface in microlayers near plant stems and algal mats (27, 28, 46), where they feed on microorganisms such as bacteria and algae (47). Because of their collecting-filtering feeding mode, there is potential for larvae to consume M. ulcerans and concentrate mycobacteria through their feeding activities (22, 23).In Ghana, the occurrence of M. ulcerans among invertebrate communities in lentic habitats has been documented from regions in Ga West and Ga East Districts in which the disease is endemic as well as those in which it is not endemic (2, 49) but not in geographically distinct areas in which the disease is not endemic such as the Volta region (49). M. ulcerans has been identified in a suite of environmental samples such as filtered water, biofilms, and algae as well as among a broad spectrum of invertebrate taxa, including both larval and adult mosquitoes (2, 11, 17, 49). However, the replication and trophic movement of M. ulcerans within these environmental samples and invertebrate communities have not been experimentally investigated. Conceptual models have been proposed that assume that the primary consumers of M. ulcerans (e.g., mosquito larvae, cladocerans, and chironomid larvae) may feed on bacteria and algae in biofilms, filter suspended matter from the water column, and then initiate the passage of M. ulcerans through an aquatic food web (2, 22, 31). This model predicts the movement of M. ulcerans through secondary and tertiary consumers and implies a complex trophic relationship in the ecology of M. ulcerans as well as an important role of aquatic invertebrates in the disease ecology of M. ulcerans.In the studies reported here, we have explored the role of mosquitoes as biological or mechanical vectors of M. ulcerans, as well as the potential of mosquito larvae to play a central role in the movement of M. ulcerans through an aquatic food web. In order to investigate the ability of mosquito larvae to ingest and maintain M. ulcerans within their digestive tract as well as to persist throughout the mosquito development cycle, we took advantage of the fact that mosquito larvae naturally feed upon bacteria. Results presented here show that strains of M. ulcerans from Africa and Australia, as well as Mycobacterium marinum, were maintained at high levels in the larval mosquito gut for 6 days. However, neither M. ulcerans nor M. marinum was detected in adult mosquitoes that were infected in the larval stage. These results suggest that mosquitoes are unlikely to serve as biological vectors of M. ulcerans.We further developed a model for following the passage of M. ulcerans through a series of consumers to determine whether M. ulcerans could be passed up a trophic chain from primary to tertiary consumers. In this model, we conducted similar experiments using four species of nonpredatory mosquito larvae, Aedes aegypti (Linnaeus), Aedes albopictus (Skuse), Ochlerotatus triseriatus (Theobald), and Culex restuans (Theobald), as primary consumers. These larvae were infected with isogenic wild-type (WT) and toxin-negative isolates of M. ulcerans and of M. marinum, the closest relative to M. ulcerans (13, 14, 51). We have shown that M. ulcerans in mosquito larvae survive passage through secondary and tertiary consumers, thus providing the first laboratory evidence that M. ulcerans has the potential to move between and be maintained within different species in an aquatic food web.     

Ablation of rat TRPV1-expressing Adelta/C-fibers with resiniferatoxin: analysis of withdrawal behaviors, recovery of function and molecular correlates

Microglia are the resident macrophages in the central nervous system. In the spinal cord dorsal horn, microglia stay in resting condition during physiological sensory processing, and are activated under pathological conditions such as peripheral nerve injury. In cases such as this, the nearby resting microglia increase their motility and accumulate at the site of injury. However, direct evidence to support that nerve activity can enhance the motility of microglia has not yet to be reported. In this study we investigated whether the activation of spinal microglia under in vivo nerve injury may be mimicked by neuronal activity in the spinal cord slice preparation. We found that local application of spinal excitatory neurotransmitters, such as glutamate and substance P did not cause any change in the motility of microglial cells in the spinal cord dorsal horn. The motility of microglial cells is unlikely modulated by other transmitters, neuromodulators and chemokines, because similar applications such as GABA, serotonin, noradrenaline, carbachol, fractalkine or interleukin did not produce any obvious effect. Furthermore, low or high frequency stimulation of spinal dorsal root fibers at noxious intensities failed to cause any enhanced extension or retraction of the microglia processes. By contrast, focal application of ATP triggered rapid and robust activation of microglial cells in the spinal dorsal horn. Our results provide the first evidence that the activation of microglia in the spinal cord after nerve injury is unlikely due solely to neuronal activity, non-neuronal factors are likely responsible for the activation of nerve injury-related microglial cells in the spinal dorsal horn.