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Query: UMLS:C0023241 (
Legionella
)
6,990
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
A total of 1241 water samples was investigated from 103 hospitals and 62 hotels in Lower Saxony 1985-87. 331 of 949 samples from hospitals and 26 of 292 samples from hotels were
Legionella
positive. All together 70% of the hospitals and 18% of the hotels investigated were
Legionella
positive, and 836 strains of
Legionella
were isolated (Table 1). As they could be diagnosed they belong to L. pneumophila SG1 306 strains,
SG2
36 strains, SG3 127 strains, SG4 45 strain, SG5 29 strain, SG6 106 strains, SG9 13 strains and SG10 13 strains. Further 134 strains belonging to L. pneumophila but not to SG1-SG12 show cross reactions with serogroups 5, 8, and 10. Finally, 16 strains belong to L. dumoffii and 1 strain to L. anisa (Table 2). The following parameters of water samples were studied, too: temperature, pH value, conductivity, concentration of iron, of organic matter, of other bacteria, occurrence of amoebas, and the materials of water plumbing systems. Most samples contained concentrations of
Legionella
in the range of 10(1)-10(3) CFU/ml, highest concentrations were 10(5) CFU/ml (Fig. 1). Most frequently,
Legionella
were isolated within the range of temperature of 35-45 degrees C. However, a few of the water samples were positive for
Legionella
even up to 66 degrees C (Fig. 3). The conductivity has no and the pH value (Fig. 2) has only little influence on the occurrence of
Legionella
. There is a positive correlation between concentration of iron and frequency of
Legionella
(Fig. 4). Also organic matter (Fig. 6) and amoebas (Table 3) seem to enhance the occurrence of
Legionella
. Plumbing systems consisting of copper showed an inhibitory effect on
Legionella
during the first five years, whereas no effect could be detected in older systems (Fig. 5).
...
PMID:Occurrence and parameters of frequency of Legionella in warm water systems of hospitals and hotels in Lower Saxony. 313 74
The virulence factor known as the macrophage infectivity potentiator (mip) is responsible for the intracellular survival of
Legionella
species. In this study, we investigated the potential of the mip gene sequence to differentiate isolates of different species of
Legionella
and different serogroups of
Legionella
pneumophila. We used 35 clinical L. pneumophila isolates and one clinical isolate each of Legionella micdadei,
Legionella
longbeachae, and
Legionella
dumoffii (collected from hospitals all over Japan between 1980 and 2007). We used 19 environmental
Legionella
anisa isolates (collected in the Okinawa, Nara, Osaka, and Hyogo prefectures between 1987 and 2007) and two
Legionella
type strains. We extracted bacterial genomic DNA and amplified out the mip gene by PCR. PCR products were purified by agarose gel electrophoresis and the mip gene was then sequenced. The L. pneumophila isolates could be divided into two groups: one group was very similar to the type strain and was composed of serogroup (SG) 1 isolates only; the second group had more sequence variations and was composed of SG1 isolates as well as
SG2
, SG3, SG5, and SG10 isolates. Phylogenetic analysis displayed one cluster for L. anisa isolates, while other
Legionella
species were present at discrete levels. Our findings show that mip gene sequencing is an effective technique for differentiating L. pneumophila strains from other
Legionella
species.
...
PMID:Identification of Legionella pneumophila serogroups and other Legionella species by mip gene sequencing. 2201 97
The
Legionella
Reference Center in Japan collected 427
Legionella
clinical isolates between 2008 and 2016, including 7 representative isolates from corresponding outbreaks. The collection included 419
Legionella
pneumophila
isolates, of which 372 belonged to serogroup 1 (SG1) (87%) and the others belonged to
SG2
to SG15 except for SG7 and SG11, and 8 isolates of other
Legionella
species (
Legionella
bozemanae
,
Legionella
dumoffii
,
Legionella
feeleii
,
Legionella
longbeachae
,
Legionella
londiniensis
, and
Legionella
rubrilucens
).
L. pneumophila
isolates were genotyped by sequence-based typing (SBT) and represented 187 sequence types (STs), of which 126 occurred in a single isolate (index of discrimination of 0.984). These STs were analyzed using minimum spanning tree analysis, resulting in the formation of 18 groups. The pattern of overall ST distribution among
L. pneumophila
isolates was diverse. In particular, some STs were frequently isolated and were suggested to be related to the infection sources. The major STs were ST23 (35 isolates), ST120 (20 isolates), and ST138 (16 isolates). ST23 was the most prevalent and most causative ST for outbreaks in Japan and Europe. ST138 has been observed only in Japan, where it has caused small-scale outbreaks; 81% of those strains (13 isolates) were suspected or confirmed to infect humans through bath water sources. On the other hand, 11 ST23 strains (31%) and 5 ST120 strains (25%) were suspected or confirmed to infect humans through bath water. These findings suggest that some ST strains frequently cause legionellosis in Japan and are found under different environmental conditions.
IMPORTANCE
Legionella
pneumophila
serogroup 1 (SG1) is the most frequent cause of legionellosis. Our previous genetic analysis indicated that SG1 environmental isolates represented 8 major clonal complexes, consisting of 3 B groups, 2 C groups, and 3 S groups, which included major environmental isolates derived from bath water, cooling towers, and soil and puddles, respectively. Here, we surveyed clinical isolates collected from patients with legionellosis in Japan between 2008 and 2016. Most strains belonging to the B group were isolated from patients for whom bath water was the suspected or confirmed source of infection. Among the isolates derived from patients whose suspected infection source was soil or dust, most belonged to the S1 group and none belonged to the B or C groups. Additionally, the U group was discovered as a new group, which mainly included clinical isolates with unknown infection sources.
...
PMID:Legionella pneumophila and Other Legionella Species Isolated from Legionellosis Patients in Japan between 2008 and 2016. 2998 May 59
Legionella
pneumophila
is known as a human pathogen and is ubiquitous in natural and artificial aquatic environments. Many studies have revealed the virulence traits of
L. pneumophila
using clinical strains and a number of studies for characterizing environmental strains are also reported. However, the association between the virulence and survivability in the environment is unclear. In the present study,
L. pneumophila
was isolated from environmental water sites (Ashiyu foot spa, water fountain, and public bath), and the serogroups of isolated strains were determined by serological tests. Isolated strains were found to belong to serogroups SG1,
SG2
, SG3, SG4, SG5, SG8, SG9, and SG13. Untypeable strains were also obtained. Isolated strains were used for intracellular growth assay in a human monocytic cell line, THP-1. Among these strains, only an untypeable strain, named AY3, failed to replicate in THP-1. In addition, AY3 was maintained for a long period in an environmental water site, Ashiyu foot spa 2. Further, we compared the characteristics of several strains isolated from Ashiyu foot spa 2 and a clinical strain, Togus-1. AY3 failed to replicate in THP-1 cells but replicated in an amoeba model,
Dictyostelium discoideum
. Compared with Togus-1, the culturable cell number of environmental strains under stress conditions was higher. Moreover, biofilm formation was assessed, and AY3 showed the same degree of biofilm formation as Togus-1. Biofilm formation, replication in amoebae, and resistance against stress factors would explain the predominance of AY3 at one environmental site. Although the mechanism underlying the difference in the ability of AY3 to replicate in THP-1 cells or amoebae is still unclear, AY3 may abandon the ability to replicate in THP-1 cells to survive in one environment for a long period. Understanding the mechanisms of
L. pneumophila
in replication within different hosts should help in the control of
Legionnaires' disease
, but further study is necessary.
...
PMID:Attenuated
Legionella pneumophila
Survives for a Long Period in an Environmental Water Site. 3135 84
