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Query: UMLS:C0023241 (
Legionella
)
6,990
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Legionella
pneumophila has been shown to survive and multiply in a variety of intracellular environments, including protozoa and human mononuclear phagocytes. However, the mechanism by which this organism acquires iron in the intracellular environment has not been studied. Since L. pneumophila does not produce siderophores, alternative methods of iron acquisition were investigated. Virulent strains of L. pneumophila were able to grow in media containing as little as 3 microM iron, whereas avirulent cells required a minimum of 13 microM iron for growth. Neither virulent nor avirulent cells were able to utilize 55Fe bound to transferrin. When incubated in the presence of 55Fe in the form of ferric chloride, both virulent and avirulent cells accumulated equal amounts of iron. The uptake of iron was energy dependent as indicated by inhibition of 55Fe uptake at 4 degrees C and preincubation of the cells with KCN. Treatment of virulent cells with pronase or trypsin had no effect on iron uptake. In contrast, pronase or trypsin treatment of avirulent cells resulted in increased uptake of iron. Iron reductase activity in both virulent and avirulent cells was demonstrated, with the highest specific activity associated with the periplasmic fraction. Maximum reductase activity of virulent cells occurred with NADH as the reductant. In contrast, avirulent cells showed a twofold increase in enzyme activity when
NADPH
was used as the reductant. These results suggest that an iron reductase is important in iron acquisition by L. pneumophila.
...
PMID:Acquisition of iron by Legionella pneumophila: role of iron reductase. 190 41
Ferric reductase enzymes requiring a reductant for maximal activity were purified from the cytoplasmic and periplasmic fractions of avirulent and virulent
Legionella
pneumophila. The cytoplasmic and periplasmic enzymes are inhibited by zinc sulfate, constitutive and active under aerobic or anaerobic conditions. However, the periplasmic and cytoplasmic reductases are two distinct enzymes as shown by their molecular weights, specific activities, reductant specificities and other characteristics. The molecular weights of the cytoplasmic and periplasmic ferric reductases are approximately 38 and 25 kDa, respectively. The periplasmic reductase (Km = 7.0 microM) has a greater specific activity and twice the affinity for ferric citrate as the cytoplasmic enzyme (Km = 15.3 microM). Glutathione serves as the optimum reductant for the periplasmic reductase, but is inactive for the cytoplasmic enzyme. In contrast,
NADPH
is the optimum reductant for the cytoplasmic enzyme. Ferric reductases of avirulent cells show a 2-fold increase in their activities when
NADPH
is used as a reductant in comparison with NADH. In contrast, ferric reductases from virulent cells demonstrated an equivalent activity with NADH or
NADPH
as reductants. With the exception of their response to
NADPH
, the ferric reductase at each respective location appears to be similar for avirulent and virulent cells.
...
PMID:Ferric reductases of Legionella pneumophila. 835 4
We recently demonstrated that the virulence of a clinical isolate of
Legionella
pneumophila is significantly attenuated when cultured in an iron-limited environment. In this study the influence of iron limitation on the expression of enzyme activities and iron-transport mechanisms was investigated. Expression of the important pathogenicity factor, the zinc metalloprotease, was reduced fivefold in response to iron limitation. Ferric citrate reductase activity was demonstrated in both iron-limited and replete cell fractions. Activity was located principally in the cytoplasm and periplasm, and was not enhanced by iron restriction. Optimum activity was observed with
NADPH
as reductant. Siderophores were not elaborated under these culture conditions. Iron-loaded transferrin enhanced the growth of steady-state, iron-limited cultures, demonstrating that transferrin represents a potentially important iron source for L. pneumophila in vivo. Although cell surface transferrin receptors were not detected, in vitro experiments demonstrated digestion of transferrin by the zinc metalloprotease activity of culture supernatants.
...
PMID:A study of iron acquisition mechanisms of Legionella pneumophila grown in chemostat culture. 905 45
Adaptation to the host environment and exploitation of host cell functions are critical to the success of intracellular pathogens. Here, insight to these virulence mechanisms was obtained for the first time from the transcriptional program of the human pathogen
Legionella
pneumophila during infection of its natural host, Acanthamoeba castellanii. The biphasic life cycle of L. pneumophila was reflected by a major shift in gene expression from replicative to transmissive phase, concerning nearly half of the genes predicted in the genome. However, three different L. pneumophila strains showed similar in vivo gene expression patterns, indicating that common regulatory mechanisms govern the
Legionella
life cycle, despite the plasticity of its genome. During the replicative phase, in addition to components of aerobic metabolism and amino acid catabolism, the Entner-Doudoroff pathway, a
NADPH
producing mechanism used for sugar and/or gluconate assimilation, was expressed, suggesting for the first time that intracellular L. pneumophila may also scavenge host carbohydrates as nutrients and not only proteins. Identification of genes only upregulated in vivo but not in vitro, may explain higher virulence of in vivo grown L. pneumophila. Late in the life cycle, L. pneumophila upregulates genes predicted to promote transmission and manipulation of a new host cell, therewith priming it for the next attack. These including substrates of the Dot/Icm secretion system, other factors associated previously with invasion and virulence, the motility and the type IV pilus machineries, and > 90 proteins not characterized so far. Analysis of a fliA (sigma28) deletion mutant identified genes coregulated with the flagellar regulon, including GGDEF/EAL regulators and factors that promote host cell entry and survival.
...
PMID:Virulence strategies for infecting phagocytes deduced from the in vivo transcriptional program of Legionella pneumophila. 1688 28
The evolutionarily conserved processes of endosome-lysosome maturation and macroautophagy are established mechanisms that limit survival of intracellular bacteria. Similarly, another emerging mechanism is LC3-associated phagocytosis (LAP). Here we report that an intracellular vacuolar pathogen,
Legionella
dumoffii, is specifically targeted by LAP over classical endocytic maturation and macroautophagy pathways. Upon infection, the majority of L. dumoffii resides in ER-like vacuoles and replicate within this niche, which involves inhibition of classical endosomal maturation. The establishment of the replicative niche requires the bacterial Dot/Icm type IV secretion system (T4SS). Intriguingly, the remaining subset of L. dumoffii transiently acquires LC3 to L. dumoffii-containing vacuoles in a Dot/Icm T4SS-dependent manner. The LC3-decorated vacuoles are bound by an apparently undamaged single membrane, and fail to associate with the molecules implicated in selective autophagy, such as ubiquitin or adaptors. The process requires toll-like receptor 2, Rubicon, diacylglycerol signaling and downstream
NADPH
oxidases, whereas ULK1 kinase is dispensable. Together, we have discovered an intracellular pathogen, the survival of which in infected cells is limited predominantly by LAP. The results suggest that L. dumoffii is a valuable model organism for examining the mechanistic details of LAP, particularly induced by bacterial infection.
...
PMID:Bacterial secretion system skews the fate of Legionella-containing vacuoles towards LC3-associated phagocytosis. 2831 32
