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941.
942.
Julia Gögler Johannes Stökl Anna Sramkova Robert Twele Wittko Francke Salvatore Cozzolino Pierluigi Cortis Antonio Scrugli Manfred Ayasse 《Evolution; international journal of organic evolution》2009,63(9):2222-2234
In the sexually deceptive orchid genus Ophrys , reproductive isolation is based on the specific attraction of males of a single pollinator species by mimicking the female species-specific sex pheromone. Changes in the odor composition can lead to hybridization and speciation by the attraction of a new pollinator that acts as an isolation barrier toward other sympatrically occurring Ophrys species. On Sardinia, we investigated the evolutionary origin of two sympatrically occurring endemic species, Ophrys chestermanii and O. normanii , which are both pollinated by males of the cuckoo bumblebee Bombus vestalis . Chemical and electrophysiological analyses of floral scent and genetic analyses with amplified fragment length polymorphisms and plastid-markers clearly showed that O. normanii is neither a hybrid nor a hybrid species. The two species evolved from different ancestors, viz. O. normanii from O. tenthredinifera and O. chestermanii from O. annae , and converged to the same pollinator attracted by the same bouquet of polar compounds. In spite of sympatry, pollinator sharing and overlapping blooming periods, no evidence has been obtained for gene flow between O. chestermanii and O. normanii indicating an unusual case among sexually deceptive orchids in which postmating rather than premating reproductive isolation mechanisms strongly prevent interspecific gene flow. 相似文献
943.
Two aspartyl proteases activities were identified and isolated from Trypanosoma cruzi epimastigotes: cruzipsin-I (CZP-I) and cruzipsin-II (CZP-II). One was isolated from a soluble fraction (CZP-II) and the other was solubilized with 3-[(3-cholamidopropyl)-dimethylammonio]-1-propanesulfonate (CZP-I). The molecular mass of both proteases was estimated to be 120 kDa by HPLC gel filtration and the activity of the enzymes was detected in a doublet of bands (56 and 48 kDa) by substrate-sodium dodecyl sulphate-polyacrylamide-gelatin gel electrophoresis. Substrate specificity studies indicated that the enzymes consistently hydrolyze the cathepsin D substrate Phe-Ala-Ala-Phe (4-NO2)-Phe-Val-Leu-O4MP but failed to hydrolyze serine and other protease substrates. Both proteases activities were strongly inhibited by the classic inhibitor pepstatin-A (?68%) and the aspartic active site labeling agent, 1,2-epoxy-3-(phenyl-nitrophenoxy) propane (?80%). These findings show that both proteases are novel T. cruzi acidic proteases. The physiological function of these enzymes in T. cruzi has under investigation. 相似文献
944.
Upasna Gaur Suzanne Hickerson Salvatore J. Turco Stephen M. Beverley 《Experimental parasitology》2009,122(3):182-191
Surface phosophoglycans such as lipophosphoglycan (LPG) or proteophosphoglycan (PPG) and glycosylinositol phospholipids (GIPLs) modulate essential interactions between Leishmania and mammalian macrophages. Phosphoglycan synthesis depends on the Golgi GDP-mannose transporter encoded by LPG2. LPG2-null (lpg2−) Leishmania major cannot establish macrophage infections or induce acute pathology, whereas lpg2−Leishmania mexicana retain virulence. lpg2−Leishmaniadonovani has been reported to survive poorly in cultured macrophages but in vivo survival has not been explored. Herein we discovered that, similar to lpg2−L. major, lpg2−L. donovani promastigotes exhibited diminished virulence in mice, but persisted at consistently low levels. lpg2−L. donovani promastigotes could not establish infection in macrophages and could not transiently inhibit phagolysosomal fusion. Furthermore, lpg2− promastigotes of L. major, L. donovani and L. mexicana were highly susceptible to complement-mediated lysis. We conclude that phosphoglycan assembly and expression mediated by L. donovani LPG2 are important for promastigote and amastigote virulence, unlike L. mexicana but similar to L. major. 相似文献
945.
Ruben K. Dagda Salvatore J. Cherra III Scott M. Kulich Anurag Tandon David Park Charleen T. Chu 《The Journal of biological chemistry》2009,284(20):13843-13855
Mitochondrial dysregulation is strongly implicated in Parkinson disease.
Mutations in PTEN-induced kinase 1 (PINK1) are associated with familial
parkinsonism and neuropsychiatric disorders. Although overexpressed PINK1 is
neuroprotective, less is known about neuronal responses to loss of PINK1
function. We found that stable knockdown of PINK1 induced mitochondrial
fragmentation and autophagy in SH-SY5Y cells, which was reversed by the
reintroduction of an RNA interference (RNAi)-resistant plasmid for PINK1.
Moreover, stable or transient overexpression of wild-type PINK1 increased
mitochondrial interconnectivity and suppressed toxin-induced
autophagy/mitophagy. Mitochondrial oxidant production played an essential role
in triggering mitochondrial fragmentation and autophagy in PINK1 shRNA lines.
Autophagy/mitophagy served a protective role in limiting cell death, and
overexpressing Parkin further enhanced this protective mitophagic response.
The dominant negative Drp1 mutant inhibited both fission and mitophagy in
PINK1-deficient cells. Interestingly, RNAi knockdown of autophagy proteins
Atg7 and LC3/Atg8 also decreased mitochondrial fragmentation without affecting
oxidative stress, suggesting active involvement of autophagy in morphologic
remodeling of mitochondria for clearance. To summarize, loss of PINK1 function
elicits oxidative stress and mitochondrial turnover coordinated by the
autophagic and fission/fusion machineries. Furthermore, PINK1 and Parkin may
cooperate through different mechanisms to maintain mitochondrial
homeostasis.Parkinson disease is an age-related neurodegenerative disease that affects
∼1% of the population worldwide. The causes of sporadic cases are unknown,
although mitochondrial or oxidative toxins such as
1-methyl-4-phenylpyridinium, 6-hydroxydopamine
(6-OHDA),3 and
rotenone reproduce features of the disease in animal and cell culture models
(1). Abnormalities in
mitochondrial respiration and increased oxidative stress are observed in cells
and tissues from parkinsonian patients
(2,
3), which also exhibit
increased mitochondrial autophagy
(4). Furthermore, mutations in
parkinsonian genes affect oxidative stress response pathways and mitochondrial
homeostasis (5). Thus,
disruption of mitochondrial homeostasis represents a major factor implicated
in the pathogenesis of sporadic and inherited parkinsonian disorders (PD).The PARK6 locus involved in autosomal recessive and early-onset PD
encodes for PTEN-induced kinase 1 (PINK1)
(6,
7). PINK1 is a cytosolic and
mitochondrially localized 581-amino acid serine/threonine kinase that
possesses an N-terminal mitochondrial targeting sequence
(6,
8). The primary sequence also
includes a putative transmembrane domain important for orientation of the
PINK1 domain (8), a conserved
kinase domain homologous to calcium calmodulin kinases, and a C-terminal
domain that regulates autophosphorylation activity
(9,
10). Overexpression of
wild-type PINK1, but not its PD-associated mutants, protects against several
toxic insults in neuronal cells
(6,
11,
12). Mitochondrial targeting
is necessary for some (13) but
not all of the neuroprotective effects of PINK1
(14), implicating involvement
of cytoplasmic targets that modulate mitochondrial pathobiology
(8). PINK1 catalytic activity
is necessary for its neuroprotective role, because a kinase-deficient K219M
substitution in the ATP binding pocket of PINK1 abrogates its ability to
protect neurons (14). Although
PINK1 mutations do not seem to impair mitochondrial targeting, PD-associated
mutations differentially destabilize the protein, resulting in loss of
neuroprotective activities
(13,
15).Recent studies indicate that PINK1 and Parkin interact genetically
(3,
16-18)
to prevent oxidative stress
(19,
20) and regulate mitochondrial
morphology (21). Primary cells
derived from PINK1 mutant patients exhibit mitochondrial fragmentation with
disorganized cristae, recapitulated by RNA interference studies in HeLa cells
(3).Mitochondria are degraded by macroautophagy, a process involving
sequestration of cytoplasmic cargo into membranous autophagic vacuoles (AVs)
for delivery to lysosomes (22,
23). Interestingly,
mitochondrial fission accompanies autophagic neurodegeneration elicited by the
PD neurotoxin 6-OHDA (24,
25). Moreover, mitochondrial
fragmentation and increased autophagy are observed in neurodegenerative
diseases including Alzheimer and Parkinson diseases
(4,
26-28).
Although inclusion of mitochondria in autophagosomes was once believed to be a
random process, as observed during starvation, studies involving hypoxia,
mitochondrial damage, apoptotic stimuli, or limiting amounts of aerobic
substrates in facultative anaerobes support the concept of selective
mitochondrial autophagy (mitophagy)
(29,
30). In particular,
mitochondrially localized kinases may play an important role in models
involving oxidative mitochondrial injury
(25,
31,
32).Autophagy is involved in the clearance of protein aggregates
(33-35)
and normal regulation of axonal-synaptic morphology
(36). Chronic disruption of
lysosomal function results in accumulation of subtly impaired mitochondria
with decreased calcium buffering capacity
(37), implicating an important
role for autophagy in mitochondrial homeostasis
(37,
38). Recently, Parkin, which
complements the effects of PINK1 deficiency on mitochondrial morphology
(3), was found to promote
autophagy of depolarized mitochondria
(39). Conversely, Beclin
1-independent autophagy/mitophagy contributes to cell death elicited by the PD
toxins 1-methyl-4-phenylpyridinium and 6-OHDA
(25,
28,
31,
32), causing neurite
retraction in cells expressing a PD-linked mutation in leucine-rich repeat
kinase 2 (40). Whereas
properly regulated autophagy plays a homeostatic and neuroprotective role,
excessive or incomplete autophagy creates a condition of “autophagic
stress” that can contribute to neurodegeneration
(28).As mitochondrial fragmentation
(3) and increased mitochondrial
autophagy (4) have been
described in human cells or tissues of PD patients, we investigated whether or
not the engineered loss of PINK1 function could recapitulate these
observations in human neuronal cells (SH-SY5Y). Stable knockdown of endogenous
PINK1 gave rise to mitochondrial fragmentation and increased autophagy and
mitophagy, whereas stable or transient overexpression of PINK1 had the
opposite effect. Autophagy/mitophagy was dependent upon increased
mitochondrial oxidant production and activation of fission. The data indicate
that PINK1 is important for the maintenance of mitochondrial networks,
suggesting that coordinated regulation of mitochondrial dynamics and autophagy
limits cell death associated with loss of PINK1 function. 相似文献
946.
A long-standing question about membrane structure and function is the degree to which the physical properties of the inner and outer leaflets of a bilayer are coupled to one another. Using our recently developed methods to prepare asymmetric vesicles, coupling was investigated for vesicles containing phosphatidylcholine (PC) in the inner leaflet and sphingomyelin (SM) in the outer leaflet. The coupling of both lateral diffusion and membrane order was monitored as a function of PC and SM acyl chain structure. The presence in the outer leaflet of brain SM, which decreased outer-leaflet lateral diffusion, had little effect upon lateral diffusion in inner leaflets composed of dioleoyl PC (i.e., diffusion was only weakly coupled in the two leaflets) but did greatly reduce lateral diffusion in inner leaflets composed of PC with one saturated and one oleoyl acyl chain (i.e., diffusion was strongly coupled in these cases). In addition, reduced outer-leaflet diffusion upon introduction of outer-leaflet milk SM or a synthetic C24:0 SM, both of which have long interdigitating acyl chains, also greatly reduce diffusion of inner leaflets composed of dioleoyl PC, indicative of strong coupling. Strikingly, several assays showed that the ordering of the outer leaflet induced by the presence of SM was not reflected in increased lipid order in the inner leaflet, i.e., there was no detectable coupling between inner and outer leaflet membrane order. We propose a model for how lateral diffusion can be coupled in opposite leaflets and discuss how this might impact membrane function. 相似文献
947.
The development of ultrasensitive and rapid approaches to detect tumor markers at very low concentrations even in a physiological environment represents a challenge in nano-medicine. The p53 protein is at the center of the cellular network that protects organisms against the insurgence of tumors, most of which are related to alteration of p53 expression. Therefore p53 is regarded as a valuable prognostic marker whose detection at high sensitivity may considerably contribute to early diagnosis of cancers. In this work we have applied an analytical method based on surface enhanced Raman spectroscopy with high sensitivity and rapidity to improve traditional bioaffinity techniques. The Raman reporter bifunctional linker 4-aminothiophenol (4-ATP) first assembled onto 50 nm gold nanoparticles (Nps) has then been azotated to bind low concentration wild-type and two mutated forms of p53 proteins. The Raman signal enhancement of the resulting p53-(4-ATP-Np) systems has been used to identify the p53 molecules captured on a recognition substrate constituted by the azurin (Az) protein monolayer. Az has shown a strong association for both wild-type and mutated p53 proteins, allowing us to selectively detect these proteins at concentrations as low as 500 fM, in a human serum environment. 相似文献
948.
949.
Pizzuto R Paventi G Porcile C Sarnataro D Daniele A Passarella S 《Biochimica et biophysica acta》2012,1817(9):1679-1690
As part of an ongoing study of l-lactate metabolism both in normal and in cancer cells, we investigated whether and how l-lactate metabolism occurs in mitochondria of human hepatocellular carcinoma (Hep G2) cells. We found that Hep G2 cell mitochondria (Hep G2-M) possess an l-lactate dehydrogenase (ml-LDH) restricted to the inner mitochondrial compartments as shown by immunological analysis, confocal microscopy and by assaying ml-LDH activity in solubilized mitochondria. Cytosolic and mitochondrial l-LDHs were found to differ from one another in their saturation kinetics. Having shown that l-lactate itself can enter Hep G2 cells, we found that Hep G2-M swell in ammonium l-lactate, but not in ammonium pyruvate solutions, in a manner inhibited by mersalyl, this showing the occurrence of a carrier-mediated l-lactate transport in these mitochondria. Occurrence of the l-lactate/pyruvate shuttle and the appearance outside mitochondria of oxaloacetate, malate and citrate arising from l-lactate uptake and metabolism together with the low oxygen consumption and membrane potential generation are in favor of an anaplerotic role for l-LAC in Hep G2-M. 相似文献
950.
Gustavo Bonacci Paul R. S. Baker Sonia R. Salvatore Darla Shores Nicholas K. H. Khoo Jeffrey R. Koenitzer Dario A. Vitturi Steven R. Woodcock Franca Golin-Bisello Marsha P. Cole Simon Watkins Claudette St. Croix Carlos I. Batthyany Bruce A. Freeman Francisco J. Schopfer 《The Journal of biological chemistry》2012,287(53):44071-44082
The oxidation and nitration of unsaturated fatty acids by oxides of nitrogen yield electrophilic derivatives that can modulate protein function via post-translational protein modifications. The biological mechanisms accounting for fatty acid nitration and the specific structural characteristics of products remain to be defined. Herein, conjugated linoleic acid (CLA) is identified as the primary endogenous substrate for fatty acid nitration in vitro and in vivo, yielding up to 105 greater extent of nitration products as compared with bis-allylic linoleic acid. Multiple enzymatic and cellular mechanisms account for CLA nitration, including reactions catalyzed by mitochondria, activated macrophages, and gastric acidification. Nitroalkene derivatives of CLA and their metabolites are detected in the plasma of healthy humans and are increased in tissues undergoing episodes of ischemia reperfusion. Dietary CLA and nitrite supplementation in rodents elevates NO2-CLA levels in plasma, urine, and tissues, which in turn induces heme oxygenase-1 (HO-1) expression in the colonic epithelium. These results affirm that metabolic and inflammatory reactions yield electrophilic products that can modulate adaptive cell signaling mechanisms. 相似文献