Polycystin-2 (PKD2), Eccentric (XNTA), and Meckelin (MKS3) in the Ciliated Model Organism Paramecium tetraurelia

Paramecium tetraurelia is a ciliated single cell used as a model organism for the study of ciliopathies. Ciliopathies are mammalian diseases involving the dysfunction of cilia, including cilia maintenance, construction, and signaling. P. tetraurelia and its cilia provides an excellent non-canonical system for the investigation and elucidation of proteins important for the structure, maintenance and function of cilia and ciliary beating. We utilize features of this cell such as its 1000\u27s of cilia and highly organized and patterned cell surface to observe changes in swimming behavior or disruptions in the ordered cell surface which are not feasible in mammalian cells. Here, we present research on three proteins in Paramecium, two of which are homologs to human ciliopathy genes. Using combinations of epitope-tagging, RNA interference (RNAi), immunofluorescence, immunoprecipitations, LC-MS/MS analysis and electrophysiology, we have attempted to elucidate the location, function, and potential interacting partners of these three proteins. The first protein, meckelin (MKS3), is a contributing factor in Meckel-Gruber syndrome, among other ciliopathies. Using epitope tagging, we identified the location of the Mks3 protein above each basal body. Depletion of MKS3 using RNAi leads to global loss of cilia, a severe disruption in the surface organization and a mislocalization of basal bodies out of the anterior-posterior axis of the cell. We show that depletion of Mks3 leads to abnormal backward swimming in ionic stimuli and depleted secretion of trichocysts. Based on our data, we propose two functions for Mks3 in P. tetraurelia. The first function is a transition zone component important for proper regulation of ciliary protein content, consistent with MKS3 function in other organisms. The depletion of MKS3 led to global ciliary loss, but also an imbalance in the ciliary ion channels that was different from the loss of cilia due to interference with intraflagellar transport as observed in cells depleted of IFT88. The second novel role for MKS3 is as a transient connection to the kinetodesmal fiber which is important for basal body guidance when daughter basal bodies migrate away from the mother basal body before cell division. We also examine the contribution of the non-selective cation channel Polycystin-2 (Pkd2) in Paramecium to Mg2+ permeability and Mg2+-induced behavior. When mutated in humans, Pkd2 leads to 15% of the cases of Autosomal Dominant Polycystic Kidney Disease (ADPKD). When PKD2 is depleted using RNAi in Paramecium, cells show short backward swimming in Mg2+ solutions, a resistance to heavy metal paralysis, and depleted membrane permeability to Mg2+. The channel-like protein XntA which is unique to Paramecium and Tetrahymena, is also important for these phenotypes. Therefore, we utilized the Paramecium XntA1 mutant in our studies, which lacks Mg2+-induced behavior. We demonstrate that both Pkd2 and XntA are present in the cell membrane and in the cilia. Co-IP assays show that the IP of XntA-myc co-IPs the Pkd2-FLAG channel, but not vice versa, possibly because of an occluded FLAG epitope due to protein interactions. To tease apart the contributions of Pkd2 in the cilia and the cell membrane, electrophysiology was used to measure membrane potential of ciliated and deciliated cells. Depletion of BBS8 eliminates Pkd2 in the cilia, allowing us to examine Pkd2 activity restricted to the cell membrane of ciliated cells. Depletion of Pkd2 or XntA decreases membrane permeability to Mg2+. When Pkd2 was restricted to the cell membrane via BBS8 depletion, the membrane permeability to Mg2+ increased, much like over-expressing the Pkd2 protein. Depletion of Pkd2, especially in the deciliated XntA1 mutant, leads to a dramatic decrease in Mg2+ membrane permeability. Based on these data, we propose that Pkd2 is the Mg2+ channel in Paramecium and XntA is not a channel, but is perhaps important for stabilizing Pkd2 in membrane microdomains. We have uncovered novel function roles for the proteins mentioned here, leading to a broader understanding of their function. These studies also highlight to usefulness and importance of the model organism Paramecium tetraurelia to the study of human ciliopathy genes

Molecular control of stress transmission in the microtubule cytoskeleton

AbstractIn this article, we will summarize recent progress in understanding the mechanical origins of rigidity, strength, resiliency and stress transmission in the MT cytoskeleton using reconstituted networks formed from purified components. We focus on the role of network architecture, crosslinker compliance and dynamics, and molecular determinants of single filament elasticity, while highlighting open questions and future directions for this work

Physiological Responses of Adults with Sensory Over-Responsiveness

The purpose of this research study is to identify if there are physiological response patterns associated with self-reported sensory over-responsiveness (SOR) in typical adults. SOR is the most common sensory modulation disorder and negatively affects the daily experiences of those that report SOR. The first phase of the study consisted of phone interviews where participants were screened for any potential characteristics that could affect physiological function. Then, the SRQ and AASP were used in conjunction to identify low and high SOR, typical adults. The last phase utilized the Sensory Challenge Protocol, which is both standardized and randomized, to expose participants to auditory, olfactory and tactile stimuli while collecting electrodermal response (EDR) data. This research has three major findings. First, EDR differences between high and low SOR groups are not significant, however, the high SOR group had generally higher EDR for almost all stimuli. Second, there was a strong correlation for inter- stimuli EDR, informing us that each individual has a general response style to stimuli regardless of their self-report. Lastly, there is no correlation between self-reported SOR and EDR. It is hypothesized that self-reported SOR is shaped by habituation, coping skills and varying life experiences. EDR can help support the experiences of those with high SOR, however it is not sensitive enough for diagnostic/clinical purposes. Additionally, when an individual has sensitivity in one area, there is likely sensitivity in other sensory areas as well but may be masked by coping skills, habituation or modulation

Analysis of the compressible, isotropic, neo-Hookean hyperelastic model

The most widely-used representation of the compressible, isotropic, neo-Hookean hyperelastic model is considered in this paper. The version under investigation is that which is implemented in the commercial finite element software ABAQUS, ANSYS and COMSOL. Transverse stretch solutions are obtained for the following homogeneous deformations: uniaxial loading, equibiaxial loading in plane stress, and uniaxial loading in plane strain. The ground-state Poisson’s ratio is used to parameterize the constitutive model, and stress solutions are computed numerically for the physically permitted range of its values. Despite its broad application to a number of engineering problems, the physical limitations of the model, particularly in the small to moderate stretch regimes, are not explored. In this work, we describe and analyze results and make some critical observations, underlining the model’s advantages and limitations. For example, a snap-back feature of the transverse stretch is identified in uniaxial compression, a physically undesirable behavior unless validated by experimental data. The domain of this non-unique solution is determined in terms of the ground-state Poisson’s ratio and the state of stretch and stress. The analyses we perform are essential to enable the understanding of the characteristics of the standard, compressible, isotropic, neo-Hookean model used in ABAQUS, ANSYS and COMSOL. In addition, our results provide a framework for the parameter-fitting procedure needed to characterize this standard, compressible, isotropic neo-Hookean model in terms of experimental data

Evaluating the effectiveness of a resilience program for children and young people in a private Australian psychology clinic

There is increasing research into resilience enllancing intervention programs in young people. A number of international resilience-based group programs exist; however, few are within Australia. Two Australian resilience programs are the linked-Up (13-16 year-olds} and Connect-3 (8-12 year-olds} programs. They are Solution-Focused programs based on the Resilience Doughnut model. The current study assessed the effectiveness of these two programs by comparing pre- and post-measures of resilience and adversities. Participants were aged between 8-17 years. There were 70 participants in total, 40 males (57%} and 30 females (43%). Results show that the Connect-3 program built personal competency and reduced total difficulties within a non-clinical population. The linked-Up group showed no significant change in scores for pre-intervention to post-intervention. Future re­ search should aim to explore the effectiveness of the resilience programs within clinical populations or with young people who have increased risk of adversity. Future research should also consider how resilience could be enhanced in old­ er-adolescent populations

Eg5 steps it up!

Understanding how molecular motors generate force and move microtubules in mitosis is essential to understanding the physical mechanism of cell division. Recent measurements have shown that one mitotic kinesin superfamily member, Eg5, is mechanically processive and capable of crosslinking and sliding microtubules in vitro. In this review, we highlight recent work that explores how Eg5 functions under load, with an emphasis on the nanomechanical properties of single enzymes

In vivo manipulation of the extracellular matrix induces vascular regression in a basal chordate.

We investigated the physical role of the extracellular matrix (ECM) in vascular homeostasis in the basal chordate Botryllus schlosseri, which has a large, transparent, extracorporeal vascular network encompassing an area >100 cm2 We found that the collagen cross-linking enzyme lysyl oxidase is expressed in all vascular cells and that in vivo inhibition using β-aminopropionitrile (BAPN) caused a rapid, global regression of the entire network, with some vessels regressing >10 mm within 16 h. BAPN treatment changed the ultrastructure of collagen fibers in the vessel basement membrane, and the kinetics of regression were dose dependent. Pharmacological inhibition of both focal adhesion kinase (FAK) and Raf also induced regression, and levels of phosphorylated FAK in vascular cells decreased during BAPN treatment and FAK inhibition but not Raf inhibition, suggesting that physical changes in the vessel ECM are detected via canonical integrin signaling pathways. Regression is driven by apoptosis and extrusion of cells through the basal lamina, which are then engulfed by blood-borne phagocytes. Extrusion and regression occurred in a coordinated manner that maintained vessel integrity, with no loss of barrier function. This suggests the presence of regulatory mechanisms linking physical changes to a homeostatic, tissue-level response

Design of the HIV Prevention Trials Network (HPTN) Protocol 054: A cluster randomized crossover trial to evaluate combined access to Nevirapine in developing countries

HPTN054 is a cluster randomized trial designed to compare two approaches to providing single dose nevirapine to HIV-seropositive mothers and their infants to prevent mother-to-child transmission of HIV in resource limited settings. A number of challenging issues arose during the design of this trial. Most importantly, the need to achieve high participation rates among pregnant, HIV-seropositive women in selected prenatal care clinics led us to develop a method of collecting anonymous and unlinked information on a key surrogate endpoint instead of pursuing linked and identified information on a clinical endpoint. In addition, since group counseling is the standard model for prenatal care in sub-Saharan Africa, the prenatal care clinic serves as the unit of randomization. However, constraints on the number of suitable clinics and other logistical difficulties necessitated a unique type of hybrid parallel/stepped wedge cluster randomized design in which some clinics cross over between the two treatment modalities and some do not. We describe the design for the HPTN054 trial with an emphasis on the logistic and statistical features that allowed us to address these issues. We also provide some general statistical results that are useful for computing power in parallel, crossover, stepped wedge or mixed designs of cluster randomized trials

Primary HIV-1 Infection Among Infants in sub-Saharan Africa: HPTN 024.

Our objectives were to assess clinical signs and diagnoses associated with primary HIV-1 infection among infants. We analyzed data from a clinical trial (HIV Prevention Trials Network Protocol 024) in sub-Saharan Africa. Study visits were conducted at birth, at 4-6 weeks, and at 3, 6, 9, and 12 months. The study population comprised live born, singleton, first-born infants of HIV-1-infected women with negative HIV-1 RNA assays who were still breastfeeding at 4-6 weeks. Of 1317 HIV-1-exposed infants, 84 became HIV-1 infected after 4-6 weeks and 1233 remained uninfected. There were 102 primary and 5650 nonprimary infection visits. The most common signs were cough and diarrhea, and the most common diagnoses were malaria and pneumonia. Primary infection was associated with significantly increased odds of diarrhea [odds ratio (OR) = 2.4], pneumonia (OR = 3.5), otitis media (OR = 3.1), and oral thrush (OR = 2.9). For the clinical signs and diagnoses evaluated, sensitivity was low (1%-16.7%) and specificity was high (88.2%-99%). Positive predictive values ranged from 0.1%-1.4%. Negative predictive values ranged from 28.0%-51.1%. Certain clinical signs and diagnoses, although more common during primary HIV-1 infection, had low sensitivity and high specificity. Efforts to expand access to laboratory assays for the diagnosis of primary HIV-1 infection among infants of HIV-1-infected women should be emphasized