Relationship between inflammatory cytology of canine seminal fluid and significant aerobic bacterial, anaerobic bacterial or mycoplasma cultures of canine seminal fluid: 95 cases (1987-2000)

Seminal fluid was collected by manual ejaculation from 95 dogs. Quantitative aerobic bacterial, qualitative anaerobic bacterial and mycoplasma cultures were performed on the seminal fluid, and their association with presence of inflammatory cells present in the pellet formed after centrifugation of the fluid was investigated. There was a clinically meaningful aerobic bacterial growth in 28.4%, anaerobic bacterial growth in 13.7%, and mycoplasma growth in 57.9% of the seminal fluid samples. Presence of inflammatory cytology was statistically associated with clinically meaningful aerobic bacterial growth. However, of the 78 dogs (82.1%) with clinically meaningful growth of at least one aerobic, anaerobic or mycoplasma organism, 43 (55.1%) had non-inflammatory seminal fluid cytology.     

Homeostatic activity-dependent paradigm for neurotransmitter specification

Calcium-signaling plays a central role in specification of the chemical transmitters neurons express, adjusting the numbers of cells that express excitatory and inhibitory transmitters as if to achieve homeostatic regulation of excitability. Here we review the extent to which this activity-dependent regulation is observed for a range of different transmitters. Strikingly the homeostatic paradigm is observed both for classical and for peptide transmitters and in mature as well as in embryonic nervous systems. Transmitter homeostasis adds another dimension to homeostatic regulation of function in the nervous system that includes regulation of levels of voltage-gated ion channels, densities of neurotransmitter receptors, and synapse numbers and strength.     

Copper iodide staining of protein blots on nitrocellulose membranes

Copper iodide staining which can detect protein levels as low as 100-150 pg/mm2 on nitrocellulose membranes is described. The staining is quantitative as measured by densitometry. Staining is complete within 5 min and may be removed by washing the membrane for 15 min without loss of immunoreactivity. The stain utilizes a reddish-brown precipitate of copper iodide in highly alkaline conditions. Because of its high sensitivity, convenience, and low cost, this stain may be more practical than amido black or gold- and silver-based stains for most laboratory purposes.     

Integrative genomic approaches identify IKBKE as a breast cancer oncogene

The karyotypic chaos exhibited by human epithelial cancers complicates efforts to identify mutations critical for malignant transformation. Here we integrate complementary genomic approaches to identify human oncogenes. We show that activation of the ERK and phosphatidylinositol 3-kinase (PI3K) signaling pathways cooperate to transform human cells. Using a library of activated kinases, we identify several kinases that replace PI3K signaling and render cells tumorigenic. Whole genome structural analyses reveal that one of these kinases, IKBKE (IKKepsilon), is amplified and overexpressed in breast cancer cell lines and patient-derived tumors. Suppression of IKKepsilon expression in breast cancer cell lines that harbor IKBKE amplifications induces cell death. IKKepsilon activates the nuclear factor-kappaB (NF-kappaB) pathway in both cell lines and breast cancers. These observations suggest a mechanism for NF-kappaB activation in breast cancer, implicate the NF-kappaB pathway as a downstream mediator of PI3K, and provide a framework for integrated genomic approaches in oncogene discovery.     

Treatments of Uncertainty and Variability in Ecological Risk Assessment of Single-Species Populations

The selection of the most appropriate model for an ecological risk assessment depends on the application, the data and resources available, the knowledge base of the assessor, the relevant endpoints, and the extent to which the model deals with uncertainty. Since ecological systems are highly variable and our knowledge of model input parameters is uncertain, it is important that models include treatments of uncertainty and variability, and that results are reported in this light. In this paper we discuss treatments of variation and uncertainty in a variety of population models. In ecological risk assessments, the risk relates to the probability of an adverse event in the context of environmental variation. Uncertainty relates to ignorance about parameter values, e.g., measurement error and systematic error. An assessment of the full distribution of risks, under variability and parameter uncertainty, will give the most comprehensive and flexible endpoint. In this paper we present the rationale behind probabilistic risk assessment, identify the sources of uncertainty relevant for risk assessment and provide an overview of a range of population models. While all of the models reviewed have some utility in ecology, some have more comprehensive treatments of uncertainty than others. We identify the models that allow probabilistic assessments and sensitivity analyses, and we offer recommendations for further developments that aim towards more comprehensive and reliable ecological risk assessments for populations.     

Coiled-coil nanomechanics and uncoiling and unfolding of the superhelix and alpha-helices of myosin

The nanomechanical properties of the coiled-coils of myosin are fundamentally important in understanding muscle assembly and contraction. Force spectra of single molecules of double-headed myosin, single-headed myosin, and coiled-coil tail fragments were acquired with an atomic force microscope and displayed characteristic triphasic force-distance responses to stretch: a rise phase (R) and a plateau phase (P) and an exponential phase (E). The R and P phases arise mainly from the stretching of the coiled-coils, with the hinge region being the main contributor to the rise phase at low force. Only the E phase was analyzable by the worm-like chain model of polymer elasticity. Restrained molecular mechanics simulations on an existing x-ray structure of scallop S2 yielded force spectra with either two or three phases, depending on the mode of stretch. It revealed that coiled-coil chains separate completely near the end of the P phase and the stretching of the unfolded chains gives rise to the E phase. Extensive conformational searching yielded a P phase force near 40 pN that agreed well with the experimental value. We suggest that the flexible and elastic S2 region, particularly the hinge region, may undergo force-induced unfolding and extend reversibly during actomyosin powerstroke.     

Interactions of HIV-1 Inhibitory Peptide T20 with the gp41 N-HR Coiled Coil

Cellular entry of human immunodeficiency virus type 1 (HIV-1) involves fusion of viral and cellular membranes and is mediated by structural transitions in viral glycoprotein gp41. The antiviral C-peptide T20 targets the gp41 N-terminal heptad repeat region (N-HR), blocking gp41 conformational changes essential for the entry process. To probe the T20 structure-activity relationship, we engineered a molecular mimic of the entire gp41 N-HR coiled coil using the 5-Helix design strategy. T20 bound this artificial protein (denoted 5H-ex) with nanomolar affinity (K_D = 30 nm), close to its IC₅₀ concentration (∼3 nm) but much weaker than the affinity of a related inhibitory C-peptide C37 (K_D = 0.0007 nm). T20/C37 competitive binding assays confirmed that T20 interacts with the hydrophobic groove on the surface of the N-HR coiled coil outside of a deep pocket region crucial for C37 binding. We used 5H-ex to investigate how the T20 N and C termini contributed to the inhibitor binding activity. Mutating three aromatic residues at the T20 C terminus (WNWF → ANAA) had no effect on affinity, suggesting that these amino acids do not participate in T20 binding to the gp41 N-HR. The results support recent evidence pointing to a different role for these residues in T20 inhibition (Peisajovich, S. G., Gallo, S. A., Blumenthal, R., and Shai, Y. (2003) J. Biol. Chem. 278, 21012–21017; Liu, S., Jing, W., Cheung, B., Lu, H., Sun, J., Yan, X., Niu, J., Farmar, J., Wu, S., and Jiang, S. (2007) J. Biol. Chem. 282, 9612–9620). By contrast, mutations near the T20 N terminus substantially influenced inhibitor binding strength. When Ile was substituted for Thr in the second T20 position, a 40-fold increase in binding affinity was measured (K_D = 0.75 nm). The effect of this affinity enhancement on T20 inhibitory potency varied among different viral strains. The original T20 and the higher affinity T20 variant had similar potency against wild type HIV-1. However, the higher affinity T20 variant was significantly more potent against T20-resistant virus. The findings suggest that other factors in addition to binding affinity play a role in limiting T20 potency. As a mimetic of the complete gp41 N-HR coiled coil region, 5H-ex will be a useful tool to further elucidate mechanistic profiles of C-peptide inhibitors.The HIV-1² surface glycoprotein Env promotes viral entry through the fusion of viral and cellular membranes (3). Env consists of three gp120 surface subunits and three gp41 transmembrane subunits arranged as a trimer-of-heterodimers on the virion surface. In the current model of HIV-1 entry, cellular receptor binding to gp120 initiates a series of coordinated structural transformations that stimulate gp41 to extend and insert its N-terminal fusion peptide into target cell membranes (see Fig. 1A) (4, 5). This high energy extended intermediate structure ultimately collapses into a trimer-of-hairpins conformation that juxtaposes the gp41 fusion peptide and transmembrane domain. Because the fusion peptide and transmembrane domain are inserted in target cell and viral membranes, formation of the trimer-of-hairpins is proposed to bring these membranes into the close proximity required for efficient fusion.Open in a separate windowFIGURE 1.HIV-1 gp41 and its role in viral membrane fusion. A, a model of HIV-1 entry (46). In native Env prior to receptor activation, gp41 is held in a metastable conformation by a canopy of gp120 proteins (green). Receptor binding to gp120 stimulates gp41 to extend and insert its fusion peptide segment (red) into the target cell membrane. The N-HR (gray) and C-HR (blue) regions of the gp41 ectodomain are transiently exposed in this prehairpin state. Subsequently, gp41 collapses into the trimer-of-hairpins conformation that brings the gp41 fusion peptides, transmembrane regions (purple), and their associated membranes into the close proximity for membrane fusion. The actual disposition of gp120 in both the prehairpin and trimer-of-hairpins states is uncertain; for clarity, the protein is omitted in the schematic of the trimer-of-hairpins conformation. B, a diagram of HIV-1 gp41 identifying its fusion peptide (FP), N-HR, C-HR, MPER (MP), transmembrane (TM), and cytoplasmic (cyto) domains. Amino acid sequences above and below the diagram are derived from the N-HR and C-HR/MPER regions of Env_HXB2; all but the MPER sequence WNWF (magenta) were used in the design of 5H-ex. The N-HR and C-HR segments found in the original 5-Helix are boxed in gray and blue, respectively, whereas the sequences of C37 and T20 are denoted by lines. The side chains of the C-HR amino acids marked with + pack into the hydrophobic pocket at the C terminus of the N-HR coiled coil.The core of the trimer-of-hairpins is a bundle of six α-helices formed by two hydrophobic heptad repeat sequences in the N- and C-terminal regions of the gp41 ectodomain (N-HR and C-HR, respectively) (6, 7). In the trimer-of-hairpins, the N-HR segments from three gp41 ectodomains form a central trimeric coiled coil, around which the three C-HR segments pack as antiparallel helices into hydrophobic grooves (8–11). In the prehairpin extended conformation, the N-HR and C-HR segments are unassociated and transiently accessible to inhibitors of HIV-1 entry (5, 12). Several such inhibitors are formed from the peptide sequence of the C-HR and adjacent gp41 regions (4, 6, 13, 14). Denoted C-peptides, they work in a dominant negative fashion by binding to the exposed N-HR coiled coil, thereby blocking trimer-of-hairpins formation and inhibiting viral membrane fusion (4, 15–21). One C-peptide, T20 (also called enfuvirtide), has shown antiviral activity in vivo and has been approved for use in the treatment of HIV-1 infection (22, 23).T20 is a 36-amino acid peptide extending from Tyr⁶³⁸ in the middle of the C-HR to Phe⁶⁷³ in the Trp-rich membrane proximal external region (MPER) that precedes the gp41 transmembrane domain (residue numbering is according to the Env_HXB2 sequence; see Fig. 1B) (13). In T20, these C-terminal MPER-derived residues are critical for inhibitory activity, although their structure and function in the gp41-bound state are currently unknown (1, 24, 25). A second class of similarly potent C-peptides includes C34 (residues 628–661) and the slightly larger C37 (residues 625–661) (4, 6, 26, 27). These peptides are derived entirely from the C-HR sequence and thus are shifted in the N-terminal direction compared with T20 (Fig. 1B). The interactions of C34 and C37 with gp41 are greatly stabilized by residues Trp⁶²⁸, Trp⁶³¹, and Ile⁶³⁵ near the C-HR N terminus (4). Their bulky hydrophobic side chains pack into a deep hydrophobic pocket on the surface of the N-HR coiled coil. T20 lacks these pocket binding residues and their stabilizing effect. However, T20 does contain bulky hydrophobic residues (Trp⁶⁷⁰, Trp⁶⁷², and Phe⁶⁷³) at its C terminus that might pack into a similar pocket at the other end of the N-HR coiled coil.High resolution structures of the gp41 trimer-of-hairpins have aided our understanding of the mechanism of C-peptide inhibition. These structures have enabled the design of polypeptides that mimic the gp41 N-HR coiled coil and bind C34/C37, thereby providing a tool to probe the structure-activity relationships of the inhibitors (26, 28–30). No similar tool is available for investigating T20 inhibition in detail. The structures of the gp41 trimer-of-hairpins do not include the T20 C terminus (9 residues) nor the gp41 N-terminal segments that putatively interact with it. Furthermore, gp41 N-HR-derived peptides predicted to interact with T20 are poorly soluble and difficult to use in solution phase interaction assays (6). Here we describe the design of a soluble protein (denoted 5H-ex) that mimics the putative T20-binding site on the N-HR coiled coil. 5H-ex interacts with T20 with an equilibrium dissociation constant (K_D) of 30 nm, close to the T20 50% inhibitory concentration (IC₅₀) of 3 nm. Using this protein, we explored the extent to which the N and C termini of T20 contribute to its binding activity. First, we showed that the MPER-derived residues at the peptide C terminus do not stabilize the 5H-ex/T20 interaction. Second, we identified an N-terminal substitution that significantly enhanced T20 binding affinity and improved peptide inhibitory activity against T20-resistant HIV-1. The results suggest that T20 binding to the N-HR coiled coil is stabilized primarily by residues derived from the C-HR and not the MPER. 5H-ex is likely to be a useful tool in probing the structure-activity relationship of T20.