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121.
Johansson H Nordling K Weaver TE Johansson J 《The Journal of biological chemistry》2006,281(30):21032-21039
Native lung surfactant protein C (SP-C) is a 4.2-kDa acylpeptide that associates with alveolar surfactant phospholipids via a transmembrane alpha-helix. This helix contains mainly Val, although poly-Val is inefficient in helix formation, and helical SP-C can spontaneously convert to beta-sheet aggregates and amyloid-like fibrils. SP-C is cleaved out from a 21-kDa integral membrane protein, proSP-C, in the alveolar type II cell. Recently several mutations localized in the endoplasmic reticulum-lumenal (C-terminal) part of proSP-C (CTproSP-C) have been associated with intracellular accumulation of toxic forms of proSP-C, low levels of mature SP-C, and development of interstitial lung disease. CTproSP-C contains a approximately 100-residue Brichos domain of unknown function that is also found in other membrane proteins associated with amyloid formation, dementia, and cancer. Here we find that recombinant CTproSP-C binds lipid-associated SP-C, which is in beta-strand conformation, and that this interaction results in an increased helical content. In contrast, CTproSP-C does not bind alpha-helical SP-C. Recombinant CTproSP-C(L188Q), a mutation associated with interstitial lung disease, shows secondary and quaternary structures similar to those of wild type CTproSP-C but is unable to bind lipid-associated beta-strand SP-C. Transfection of CTproSP-C into HEK293 cells that express proSP-C(L188Q) increases the amount of proSP-C protein, whereas no effect is seen on cells expressing wild type proSP-C. These findings suggest that CTproSP-C binds nonhelical SP-C and thereby prevents beta-sheet aggregation and that mutations in CTproSP-C can interfere with this function. 相似文献
122.
Hanna Skubatz Michelle D. Brot Kimberly M. Stock Brian Klatt George P. Thomas 《International journal of peptide research and therapeutics》2009,15(4):293-301
The efficacy of a novel tetrapeptide sequence, FLPS (Phe-Leu-Pro-Ser), to alleviate severe pain associated with surgical incision
is demonstrated in the Brennan model, a model used for developing new drugs for postoperative pain in humans. The tetrapeptide
(100 mg/kg dose) administered by subdermal injection completely alleviated post-incisional pain in rats using the hindpaw
withdrawal as an endpoint response. When the tetrapeptide (0.15 mg/paw) was topically applied to the vicinity of the surgical
wound, it also alleviated pain. Statistically significant increases in pain threshold (assessed by von Frey filaments pressed
against the surgical wound, 15–20 min after dosing) were observed on the day of surgery and on the third day post-surgery.
Up to a 0.5°C decrease in body temperature under basal conditions and yeast-provoked pyrexia was observed at doses that alleviate
pain. The tetrapeptide does not exhibit any significant anti-edema activity in carrageenan-induced hindpaw edema, and does
not affect human recombinant cyclooxygenase-2 activity, indicating that the analgesic property of the tetrapeptide is unlikely
to be mediated through inflammatory pathways. The tetrapeptide at 10 μM, a dose that is sufficient to increase the pain threshold
in rats, does not compete with naloxone for the opioid receptors in membrane preparations from rat brain, indicating that
it does not mediate its effect through the opioid receptors. It also does not bind to the vanilloid receptor, indicating that
peripheral vanilloid receptors are not involved in pain relief by the tetrapeptide. 相似文献
123.
TFG clusters COPII‐coated transport carriers and promotes early secretory pathway organization 下载免费PDF全文
Adam Johnson Nilakshee Bhattacharya Michael Hanna Janice G Pennington Amber L Schuh Lei Wang Marisa S Otegui Scott M Stagg Anjon Audhya 《The EMBO journal》2015,34(6):811-827
In mammalian cells, cargo‐laden secretory vesicles leave the endoplasmic reticulum (ER) en route to ER‐Golgi intermediate compartments (ERGIC) in a manner dependent on the COPII coat complex. We report here that COPII‐coated transport carriers traverse a submicron, TFG (Trk‐fused gene)‐enriched zone at the ER/ERGIC interface. The architecture of TFG complexes as determined by three‐dimensional electron microscopy reveals the formation of flexible, octameric cup‐like structures, which are able to self‐associate to generate larger polymers in vitro. In cells, loss of TFG function dramatically slows protein export from the ER and results in the accumulation of COPII‐coated carriers throughout the cytoplasm. Additionally, the tight association between ER and ERGIC membranes is lost in the absence of TFG. We propose that TFG functions at the ER/ERGIC interface to locally concentrate COPII‐coated transport carriers and link exit sites on the ER to ERGIC membranes. Our findings provide a new mechanism by which COPII‐coated carriers are retained near their site of formation to facilitate rapid fusion with neighboring ERGIC membranes upon uncoating, thereby promoting interorganellar cargo transport. 相似文献
124.
125.
Anna Gillman Shaman Muradrasoli Hanna S?derstr?m Johan Nordh Caroline Br?jer Richard H. Lindberg Neus Latorre-Margalef Jonas Waldenstr?m Bj?rn Olsen Josef D. J?rhult 《PloS one》2013,8(8)
Resistance to neuraminidase inhibitors (NAIs) is problematic as these drugs constitute the major treatment option for severe influenza. Extensive use of the NAI oseltamivir (Tamiflu®) results in up to 865 ng/L of its active metabolite oseltamivir carboxylate (OC) in river water. There one of the natural reservoirs of influenza A, dabbling ducks, can be exposed. We previously demonstrated that an influenza A(H1N1) virus in mallards (Anas platyrhynchos) exposed to 1 µg/L of OC developed oseltamivir resistance through the mutation H274Y (N2-numbering). In this study, we assessed the resistance development in an A(H6N2) virus, which belongs to the phylogenetic N2 group of neuraminidases with distinct functional and resistance characteristics. Mallards were infected with A(H6N2) while exposed to 120 ng/L, 1.2 µg/L or 12 µg/L of OC in their sole water source. After 4 days with 12 µg/L of OC exposure, the resistance mutation R292K emerged and then persisted. Drug sensitivity was decreased ≈13,000-fold for OC and ≈7.8-fold for zanamivir. Viral shedding was similar when comparing R292K and wild-type virus indicating sustained replication and transmission. Reduced neuraminidase activity and decrease in recovered virus after propagation in embryonated hen eggs was observed in R292K viruses. The initial, but not the later R292K isolates reverted to wild-type during egg-propagation, suggesting a stabilization of the mutation, possibly through additional mutations in the neuraminidase (D113N or D141N) or hemagglutinin (E216K). Our results indicate a risk for OC resistance development also in a N2 group influenza virus and that exposure to one NAI can result in a decreased sensitivity to other NAIs as well. If established in influenza viruses circulating among wild birds, the resistance could spread to humans via re-assortment or direct transmission. This could potentially cause an oseltamivir-resistant pandemic; a serious health concern as preparedness plans rely heavily on oseltamivir before vaccines can be mass-produced. 相似文献
126.
The interaction of the epidermal growth factor (EGF) with its receptor (EGFR) is known to be complex, and the common over-expression of EGF receptor family members in a multitude of tumors makes it important to decipher this interaction and the following signaling pathways. We have investigated the affinity and kinetics of 125I-EGF binding to EGFR in four human tumor cell lines, each using four culturing conditions, in real time by use of LigandTracer®.Highly repeatable and precise measurements show that the overall apparent affinity of the 125I-EGF – EGFR interaction is greatly dependent on cell line at normal culturing conditions, ranging from KD≈200 pM on SKBR3 cells to KD≈8 nM on A431 cells. The 125I-EGF – EGFR binding curves (irrespective of cell line) have strong signs of multiple simultaneous interactions. Furthermore, for the cell lines A431 and SKOV3, gefitinib treatment increases the 125I-EGF - EGFR affinity, in particular when the cells are starved. The 125I-EGF - EGFR interaction on cell line U343 is sensitive to starvation while as on SKBR3 it is insensitive to gefitinib and starvation.The intriguing pattern of the binding characteristics proves that the cellular context is important when deciphering how EGF interacts with EGFR. From a general perspective, care is advisable when generalizing ligand-receptor interaction results across multiple cell-lines. 相似文献
127.
The pitch-loblolly pine hybrid (Pinus rigida × P. taeda) has useful characteristics of the parents, but its exploitation is hindered by restrictions of conventional breeding and
propagation methods. This study was undertaken to establish an effective in vitro system for propagating pitch-loblolly hybrid
pine through somatic embryogenesis and to unravel the relationship between the efficiency of embryogenic tissue initiation
and zygotic embryo development. To initiate embryogenic tissue, megagametophytes of developing seeds were used as explants.
Seeds were collected weekly, examined, and tested during June and July 2004. The medium and seed collection date were the
most important factors for the successful somatic embryogenesis of P. rigida × P. taeda. Five embryogenic lines were obtained using a modified P. taeda basal medium, and the highest initiation rate was 0.55%, for seeds collected in 2 weeks, between July 3 and 16. Histological
observation revealed that zygotic embryos of those seeds were mostly at the proembryonic stage or in transition to precotyledonary
stages. For the successful maturation of somatic embryos, abscisic acid and gellan gum were needed in the medium. The results
show that, although further tests and development are required, somatic embryogenesis could provide a viable option for propagating
P. rigida × P. taeda hybrids. 相似文献
128.
Pairings between heterokaryons and homokaryons of Agaricomycete fungi (he-ho pairings) can lead to either heterokaryotization of the homokaryon or displacement of the homokaryotic nucleus through migration of nuclei from the heterokaryon into the homokaryon. In species of Agaricomycetes with multinucleate cells (>2 nuclei per cell), he-ho pairings could result in the stable or transient formation of a hypha with three genetically different nuclei (trikaryons). In this study, he-ho pairings were conducted using the multinucleate Agaricomycete Heterobasidion parviporum to determine whether trikaryons can be formed in the laboratory and whether nuclear genotype affects migration and heterokaryon formation. Nuclei were tracked by genotyping the heterokaryotic mycelium using nucleus-specific microsatellite markers. The data indicated that certain nuclear combinations were favored, and that nuclei from some strains had a higher rate of migration. A high percentage of trikaryons (19 %) displaying three microsatellite alleles per locus were identified among subcultures of the he-ho pairings. Using hyphal tip and conidial isolation, we verified that nuclei of three different mating types can inhabit the same mycelium, and one of the trikaryotic strains was judged to be semi-stable over multiple sub-culturing steps, with some hyphal tips that retained three alleles and others that reduced to two alleles per locus. These results demonstrate that nuclear competition and selection are possible outcomes of heterokaryon-homokaryon interactions in H. parviporum and confirm that ratios of component nuclei in heterokaryons are not strictly 1:1. The high rate of trikaryon formation in this study suggests that fungi with multinucleate cells may have the potential for greater genetic diversity and recombination relative to dikaryotic fungi. 相似文献
129.
Hendrik Koliwer‐Brandl Paulina Knobloch Caroline Barisch Amanda Welin Nabil Hanna Thierry Soldati Hubert Hilbi 《Cellular microbiology》2019,21(6)
The causative agent of tuberculosis, Mycobacterium tuberculosis, and its close relative Mycobacterium marinum manipulate phagocytic host cells, thereby creating a replication‐permissive compartment termed the Mycobacterium‐containing vacuole (MCV). The phosphoinositide (PI) lipid pattern is a crucial determinant of MCV formation and is targeted by mycobacterial PI phosphatases. In this study, we establish an efficient phage transduction protocol to construct defined M. marinum deletion mutants lacking one or three phosphatases, PtpA, PtpB, and/or SapM. These strains were defective for intracellular replication in macrophages and amoebae, and the growth defect was complemented by the corresponding plasmid‐borne genes. Fluorescence microscopy of M. marinum‐infected Dictyostelium discoideum revealed that MCVs harbouring mycobacteria lacking PtpA, SapM, or all three phosphatases accumulate significantly more phosphatidylinositol‐3‐phosphate (PtdIns3P) compared with MCVs containing the parental strain. Moreover, PtpA reduced MCV acidification by blocking the recruitment of the V‐ATPase, and all three phosphatases promoted bacterial escape from the pathogen vacuole to the cytoplasm. In summary, the secreted M. marinum phosphatases PtpA, PtpB, and SapM determine the MCV PI pattern, compartment acidification, and phagosomal escape. 相似文献
130.
Bartosz J. Płachno Piotr Świątek Hanna Sas-Nowosielska Małgorzata Kozieradzka-Kiszkurno 《Protoplasma》2013,250(4):863-873
Multinucleate cells play an important role in higher plants, especially during reproduction; however, the configurations of their cytoskeletons, which are formed as a result of mitosis without cytokinesis, have mainly been studied in coenocytes. Previous authors have proposed that in spite of their developmental origin (cell fusion or mitosis without cytokinesis), in multinucleate plant cells, radiating microtubules determine the regular spacing of individual nuclei. However, with the exception of specific syncytia induced by parasitic nematodes, there is no information about the microtubular cytoskeleton in plant heterokaryotic syncytia, i.e. when the nuclei of fused cells come from different cell pools. In this paper, we describe the arrangement of microtubules in the endosperm and special endosperm–placenta syncytia in two Utricularia species. These syncytia arise from different progenitor cells, i.e. cells of the maternal sporophytic nutritive tissue and the micropylar endosperm haustorium (both maternal and paternal genetic material). The development of the endosperm in the two species studied was very similar. We describe microtubule configurations in the three functional endosperm domains: the micropylar syncytium, the endosperm proper and the chalazal haustorium. In contrast to plant syncytia that are induced by parasitic nematodes, the syncytia of Utricularia had an extensive microtubular network. Within each syncytium, two giant nuclei, coming from endosperm cells, were surrounded by a three-dimensional cage of microtubules, which formed a huge cytoplasmic domain. At the periphery of the syncytium, where new protoplasts of the nutritive cells join the syncytium, the microtubules formed a network which surrounded small nuclei from nutritive tissue cells and were also distributed through the cytoplasm. Thus, in the Utricularia syncytium, there were different sized cytoplasmic domains, whose architecture depended on the source and size of the nuclei. The endosperm proper was isolated from maternal (ovule) tissues by a cuticle layer, so the syncytium and chalazal haustorium were the only way for nutrients to be transported from the maternal tissue towards the developing embryo. 相似文献