25 research outputs found
Klf15 Is Critical for the Development and Differentiation of Drosophila Nephrocytes
Insect nephrocytes are highly endocytic scavenger cells that represent the only invertebrate model for the study of human kidney podocytes. Despite their importance, nephrocyte development is largely uncharacterised. This work tested whether the insect ortholog of mammalian Kidney Krüppel-Like Factor (Klf15), a transcription factor required for mammalian podocyte differentiation, was required for insect nephrocyte development. It was found that expression of Drosophila Klf15 (dKlf15, previously known as Bteb2) was restricted to the only two nephrocyte populations in Drosophila, the garland cells and pericardial nephrocytes. Loss of dKlf15 function led to attrition of both nephrocyte populations and sensitised larvae to the xenotoxin silver nitrate. Although pericardial nephrocytes in dKlf15 loss of function mutants were specified during embryogenesis, they failed to express the slit diaphragm gene sticks and stones and did not form slit diaphragms. Conditional silencing of dKlf15 in adults led to reduced surface expression of the endocytic receptor Amnionless and loss of in vivo scavenger function. Over-expression of dKlf15 increased nephrocyte numbers and rescued age-dependent decline in nephrocyte function. The data place dKlf15 upstream of sns and Amnionless in a nephrocyte-restricted differentiation pathway and suggest dKlf15 expression is both necessary and sufficient to sustain nephrocyte differentiation. These findings explain the physiological relevance of dKlf15 in Drosophila and imply that the role of KLF15 in human podocytes is evolutionarily conserve
The Role of relA and spoT in Yersinia pestis KIM5+ Pathogenicity
The ppGpp molecule is part of a highly conserved regulatory system for mediating the growth response to various environmental conditions. This mechanism may represent a common strategy whereby pathogens such as Yersinia pestis, the causative agent of plague, regulate the virulence gene programs required for invasion, survival and persistence within host cells to match the capacity for growth. The products of the relA and spoT genes carry out ppGpp synthesis. To investigate the role of ppGpp on growth, protein synthesis, gene expression and virulence, we constructed a ΔrelA ΔspoT Y. pestis mutant. The mutant was no longer able to synthesize ppGpp in response to amino acid or carbon starvation, as expected. We also found that it exhibited several novel phenotypes, including a reduced growth rate and autoaggregation at 26°C. In addition, there was a reduction in the level of secretion of key virulence proteins and the mutant was>1,000-fold less virulent than its wild-type parent strain. Mice vaccinated subcutaneously (s.c.) with 2.5×104 CFU of the ΔrelA ΔspoT mutant developed high anti-Y. pestis serum IgG titers, were completely protected against s.c. challenge with 1.5×105 CFU of virulent Y. pestis and partially protected (60% survival) against pulmonary challenge with 2.0×104 CFU of virulent Y. pestis. Our results indicate that ppGpp represents an important virulence determinant in Y. pestis and the ΔrelA ΔspoT mutant strain is a promising vaccine candidate to provide protection against plague
A naturally occurring point mutation in the 13-mer R repeat affects the oriCfunction of the large chromosome of Vibrio choleraeO1 classical biotype
The genome of Vibrio cholerae consists of
two circular chromosomes of di.erent sizes. Here, a
comparative analysis of the replication origins of the
large chromosomes (oriCIVC) of classical and El Tor
biotypes of the pathogen is reported. Extensive nucleotide
sequence analyses revealed that the oriCIVC region
has six DnaA boxes instead of the .ve found in Escherichia
coli oriC. The additional DnaA box, designated
RV, was unique in V. cholerae as well as in other members
of the family Vibrionaceae. However, RV was not
found to be essential for the autonomous replication
function of the 307-bp oriCIVC minimal region. In contrast
to El Tor and the recently evolved V. cholerae O139
strains, the oriCIVC region of the classical biotype
showed only a single base transition (T . G) in a highly
conserved AT-rich 13-mer R repeat region. From the
minichromosome copy number and its transformational
e.ciency analyses, it appears that the single base substitution
in the oriCIVC of the classical biotype has a
signi.cant e.ect on its replication initiation
Molecular Characterization of Vibrio Cholerae �relA �spoT Double Mutants
In Escherichia coli cellular levels of pppGpp
and ppGpp, collectively called (p)ppGpp, are maintained
by the products of two genes, relA and spoT. Like E. coli,
Vibrio cholerae also possesses relA and spoT genes. Here
we show that similar to E. coli, V. cholerae �relA cells can accumulate (p)ppGpp upon carbon starvation but not under
amino acid starved condition. Although like in E. coli, the
spoT gene function was found to be essential in V. cholerae
relA+ background, but unlike E. coli, several V. cholerae
�relA �spoT mutants constructed in this study accumulated
(p)ppGpp under glucose starvation. The results suggest a
cryptic source of (p)ppGpp synthesis in V. cholerae, which
is induced upon glucose starvation. Again, unlike E. coli
�relA �spoT mutant (ppGpp0 strain), the V. cholerae �relA
�spoT mutants showed certain unusual phenotypes, which
are (a) resistance towards 3-amino-1,2,4-triazole (AT); (b)
growth in nutrient poor M9 minimal medium; (c) ability to
stringently regulate cellular rRNA accumulation under glucose starvation and (d) initial growth defect in nutrient rich medium. Since these phenotypes of �relA �spoT mutants could be reverted back to �relA phenotypes by providing SpoT in trans, it appears that the spoT gene function is crucial
in V. cholerae
Multicolor two-photon tissue imaging by wavelength mixing
International audienceWe achieve simultaneous two-photon excitation of three chromophores with distinct absorption spectra using synchronized pulses from a femtosecond laser and an optical parametric oscillator. The two beams generate separate multiphoton processes, and their spatiotemporal overlap provides an additional two-photon excitation route, with submicrometer overlay of the color channels. We report volume and live multicolor imaging of 'Brainbow'-labeled tissues as well as simultaneous three-color fluorescence and third-harmonic imaging of fly embryos