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Query: UMLS:C0038187 (
starvation
)
24,951
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Physiological adaptation of intracellular bacteria is critical for timely interaction with eukaryotic host cells. One mechanism of adaptation, the stringent response, is induced by nutrient stress via its effector molecule (p)ppGpp, synthesized by the action of RelA/SpoT homologues. The intracellular pathogen Brucella spp., causative agent of
brucellosis
, possesses a gene homologous to relA/spoT, named rsh, encoding a (p)ppGpp synthetase as confirmed by heterologous complementation of a relA mutant of Sinorhizobium meliloti. The Rsh deletion mutants in Brucella suis and Brucella melitensis were characterized by altered morphology, and by reduced survival under
starvation
conditions and in cellular and murine models of infection. Most interestingly, we evidenced that expression of virB, encoding the type IV secretion system, a major virulence factor of Brucella, was Rsh-dependent. All mutant phenotypes, including lack of VirB proteins, were complemented with the rsh gene of Brucella. In addition, RelA of S. meliloti functionally replaced Brucella Rsh, describing the capacity of a gene from a plant symbiont to restore virulence in a mammalian pathogen. We therefore concluded that in the intramacrophagic environment encountered by Brucella, Rsh might participate in the adaptation of the pathogen to low-nutrient environments, and indirectly in the VirB-mediated formation of the final replicative niche.
...
PMID:The stringent response mediator Rsh is required for Brucella melitensis and Brucella suis virulence, and for expression of the type IV secretion system virB. 1680 81
A complex relationship exists between autophagy and apoptosis, but the regulatory mechanisms underlying their interactions are largely unknown. We conducted a systematic study of Drosophila melanogaster cell death-related genes to determine their requirement in the regulation of
starvation
-induced autophagy. We discovered that six cell death genes--death caspase-1 (Dcp-1), hid,
Bruce
, Buffy, debcl, and p53-as well as Ras-Raf-mitogen activated protein kinase signaling pathway components had a role in autophagy regulation in D. melanogaster cultured cells. During D. melanogaster oogenesis, we found that autophagy is induced at two nutrient status checkpoints: germarium and mid-oogenesis. At these two stages, the effector caspase Dcp-1 and the inhibitor of apoptosis protein
Bruce
function to regulate both autophagy and
starvation
-induced cell death. Mutations in Atg1 and Atg7 resulted in reduced DNA fragmentation in degenerating midstage egg chambers but did not appear to affect nuclear condensation, which indicates that autophagy contributes in part to cell death in the ovary. Our study provides new insights into the molecular mechanisms that coordinately regulate autophagic and apoptotic events in vivo.
...
PMID:Effector caspase Dcp-1 and IAP protein Bruce regulate starvation-induced autophagy during Drosophila melanogaster oogenesis. 1879 30
The relationships between autophagy and cell death are complex and still not well understood. To advance our understanding of the molecular connections between autophagy and apoptosis, we performed an RNAi-based screen of Drosophila melanogaster apoptosis-related genes for their ability to enhance or suppress
starvation
-induced autophagy. We discovered that six apoptosis-related genes, Dcp-1, hid,
Bruce
, buffy, debcl and p53 as well as Ras/Raf/MAPK signaling pathway components play a role in autophagy regulation in Drosophila cultured cells. Our study also provides the first in vivo evidence that the effector caspase Dcp-1 and IAP protein
Bruce
regulate both autophagy and
starvation
-induced cell death at two nutrient status checkpoints, germarium and mid-oogenesis, in the Drosophila ovary. Analysis of degenerating mid-stage egg chambers in DmAtg1 and DmAtg7 mutants reveal a reduction in TUNEL staining though DNA condensation appears unaffected. Based on these and previous findings, we propose here a putative molecular pathway that might regulate the sensitivity threshold of apoptotic and autophagic responses. We also discuss multiple interpretations of the Atg mutant egg chamber TUNEL phenotype that are consistent with a possible role for autophagy in either suppressing or enhancing the efficiency of cell degradation and/or promoting cell clearance associated with the death process.
...
PMID:An executioner caspase regulates autophagy. 1924 6
Brucella abortus is the etiological agent of bovine
brucellosis
, an infectious disease of humans and cattle. Its pathogenesis is mainly based on its ability to survive and multiply inside macrophages. It has been demonstrated that if B. abortus ferrochelatase cannot incorporate iron into protoporphyrin IX to synthesize heme, the intracellular replication and virulence in mice is highly attenuated. Therefore, it can be hypothesized that the unavailability of iron could lead to the same attenuation in B. abortus pathogenicity. Thus, the purpose of this work was to obtain a B. abortus derivative unable to keep an internal iron pool and test its ability to replicate under iron limitation. To achieve this, we searched for iron-storage proteins in the genome of brucellae and found bacterioferritin (Bfr) as the sole ferritin encoded. Then, a B. abortus bfr mutant was built up and its capacity to store iron and replicate under iron limitation was investigated. Results indicated that B. abortus Bfr accounts for 70% of the intracellular iron content. Under iron limitation, the bfr mutant suffered from enhanced iron restriction with respect to wild type according to its growth retardation pattern, enhanced sensitivity to oxidative stress, accelerated production of siderophores, and altered expression of membrane proteins. Nonetheless, the bfr mutant was able to adapt and replicate even inside eukaryotic cells, indicating that B. abortus responds to internal iron
starvation
before sensing external iron availability. This suggests an active role of Bfr in controlling iron homeostasis through the availability of Bfr-bound iron.
...
PMID:Iron homeostasis in Brucella abortus: the role of bacterioferritin. 2104 46
Bacteria of the
Brucella
genus are responsible for
brucellosis
, a worldwide zoonosis. These bacteria are known to have a peculiar intracellular trafficking, with a first long and non-proliferative endosomal stage and a second proliferation stage, often associated with its localization of the bacteria in the endoplasmic reticulum (ER). However, the status of the bacterial cell cycle during the non-proliferative phase was still unknown. In a recent study [Nat. Communic. 5:4366], we followed the cell cycle of
B. abortus
in culture and inside the host cells. In culture,
B. abortus
initiates the replication of its large chromosome before the small chromosome. The origin and terminator regions of these two chromosomes display distinct localization and dynamics within
B. abortus
. In HeLa cells and RAW264.7 macrophages, the bacteria in G1 (i.e. before the initiation of chromosomes replication) are preferentially found during the endosomal stage of the infection. During this period, growth is also arrested. The cell cycle arrest and resume during the
B. abortus
trafficking in host cell suggest that like the model Alphaproteobacterium
Caulobacter crescentus
, these bacteria are able to block their cell cycle at the G1 phase when
starvation
is sensed.
...
PMID:On the link between cell cycle and infection of the Alphaproteobacterium
Brucella abortus
. 2500 95
Autophagy has an important role in cellular homeostasis by degrading and recycling cytotoxic components. Ubiquitination is known to target cargoes for autophagy; however, key components of this pathway remain elusive. Here we performed an RNAi screen to uncover ubiquitin modifiers that are required for
starvation
-induced macroautophagy in mammalian cells. Our screen uncovered BRUCE/Apollon/Birc6, an IAP protein, as a new autophagy regulator. Depletion of BRUCE leads to defective fusion of autophagosomes and lysosomes. Mechanistically, BRUCE selectively interacts with two ATG8 members GABARAP and GABARAPL1, as well as with Syntaxin 17, which are all critical regulators of autophagosome-lysosome fusion. In addition, BRUCE colocalizes with LAMP2. Interestingly, a non-catalytic N-terminal BRUCE fragment that is sufficient to bind GABARAP/GABARAPL1 and Syntaxin 17, and to colocalize with LAMP2, rescues autolysosome formation in
Bruce
-/-
cells. Thus, BRUCE promotes autolysosome formation independently of its ubiquitin-conjugating activity and is a regulator of both macroautophagy and apoptosis.
...
PMID:The IAP family member BRUCE regulates autophagosome-lysosome fusion. 2942 17
Brucella
spp. are intracellular pathogens that cause a disease known as
brucellosis
. Though the genus is highly monomorphic at the genetic level, species have animal host preferences and some defining physiologic characteristics. Of note is the requirement for CO
2
supplementation to cultivate particular species, which confounded early efforts to isolate
B. abortus
from diseased cattle. Differences in the capacity of
Brucella
species to assimilate CO
2
are determined by mutations in the carbonic anhydrase gene,
bcaA
Ancestral single-nucleotide insertions in
bcaA
have resulted in frameshifted pseudogenes in
B. abortus
and
B. ovis
lineages, which underlie their inability to grow under the low CO
2
tension of a standard atmosphere. Incubation of wild-type
B. ovis
in air selects for mutations that "rescue" a functional
bcaA
reading frame, which enables growth under low CO
2
and enhances the growth rate under high CO
2
Accordingly, we show that heterologous expression of functional
Escherichia coli
carbonic anhydrases enables
B. ovis
growth in air. Growth of
B. ovis
is acutely sensitive to a reduction in CO
2
tension, while frame-rescued
B. ovis
mutants are insensitive to CO
2
shifts.
B. ovis
initiates a gene expression program upon CO
2
downshift that resembles the stringent response and results in transcriptional activation of its type IV secretion system. Our study provides evidence that loss-of-function insertion mutations in
bcaA
sensitize the response of
B. ovis
and
B. abortus
to reduced CO
2
tension relative to that of other
Brucella
lineages. CO
2
-dependent
starvation
and virulence gene expression programs in these species may influence persistence or transmission in natural hosts.
IMPORTANCE
Brucella
spp. are highly related, but they exhibit differences in animal host preference that must be determined by genome sequence differences.
B. ovis
and the majority of
B. abortus
strains require high CO
2
tension to be cultivated
in vitro
and harbor conserved insertional mutations in the carbonic anhydrase gene,
bcaA
, which underlie this trait. Mutants that grow in a standard atmosphere, first reported nearly a century ago, are easily selected in the laboratory. These mutants harbor varied indel polymorphisms in
bcaA
that restore its consensus reading frame and rescue its function. Loss of
bcaA
function has evolved independently in the
B. ovis
and
B. abortus
lineages and results in a dramatically increased sensitivity to CO
2
limitation.
...
PMID:A Carbonic Anhydrase Pseudogene Sensitizes Select
Brucella
Lineages to Low CO
2
Tension. 3148 43
