1: Differentiation. 2005 Jul;73(6):303-12. 

Polyamines are involved in murine kidney development controlling expression of
c-ret, E-cadherin, and Pax2/8 genes.

Loikkanen I, Lin Y, Railo A, Pajunen A, Vainio S.

Department of Biochemistry, University of Oulu, PO Box 3000, FIN-90014 Oulu,
Finland.

Polyamines play an important role in cell growth and differentiation. We studied
changes in morphogenesis and the expression of the developmental control genes
in the embryonic mouse kidney in response to polyamine depletion, using a kidney
organ culture approach and reducing the polyamine pools with
alpha-difluoromethylornithine (DFMO), an irreversible suicide inhibitor of
ornithine decarboxylase (ODC). We found that inhibition of ODC results in a
systematic kidney organogenesis phenotype, in that the DFMO-treated kidney
specimens were of smaller size, had less epithelial ureteric bud branches, and
their mesenchymal-derived tubule formation was retarded. These dysmorphologies
were shown to be associated with changes in cell proliferation. Whole-mount in
situ experiments revealed that inhibition of ODC causes increases in epithelial
c-ret and E-cadherin and a decrease in mesenchymal Pax-8 expression, whereas
levels of epithelial Wnt-11, mesenchymal GDNF, FoxD1, and Pax-2 transcripts
remain unchanged. We studied regulation of the Pax-2 gene by analyzing a mouse
line in which lacZ was driven by an 8.5 kb Pax-2 enhancer in the epithelial
ureteric bud, and found that Pax-2 expression, as indicated by lacZ expression,
increased after DFMO treatment. Transient transfection experiments in HEK 293
cells with the minimal Pax-2 promoter showed enhanced transcription upon
reduction of the polyamine pools. We propose that ODC and polyamines have an
important role in kidney organogenesis, being involved in the regulation of the
expression of genes implicated in epithelial-mesenchymal tissue interactions.

PMID: 16138831 [PubMed - indexed for MEDLINE]


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2: Kidney Int. 2003 Mar;63(3):835-44. 

Evidence that bone morphogenetic protein 4 has multiple biological functions
during kidney and urinary tract development.

Miyazaki Y, Oshima K, Fogo A, Ichikawa I.

Department of Pediatrics, Vanderbilt University Medical Center, Nashville,
Tennessee 37232-2584, USA.

BACKGROUND: We have suggested that bone morphogenetic protein 4 (BMP4), acting
on the Wolffian duct and ureter epithelium, determines the budding site of the
ureter by locally antagonizing ubiquitous inductive signal(s) from the
metanephric mesenchyme. In the present study, we examine the effect of BMP4 on
the development of metanephric and periureteral mesenchymal cells, which express
the BMP type I receptor gene, Bmpr1a (Alk3). METHODS: Urogenital tissues
obtained from Bmp4 heterozygous null mutant (Bmp4+/-) embryos at different
stages, and metanephric and ureteral tissue explants cultured in the presence of
recombinant BMP4 were subjected to morphologic, immunohistochemical and in situ
hybridization analyses. To examine the chemotactic activity of BMP4 for
periureteral mesenchymal cells, a modified Boyden chamber assay was performed.
RESULTS: Many of the kidneys of newborn Bmp4+/- mice contained multicystic
dysplastic regions. This morphology was preceded by abnormally high apoptotic
activity in the metanephric mesenchyme of mutant embryos at E14.5. In whole
metanephric explants, BMP4 uniformly promoted the expansion of the Pax2-negative
and weakly Foxd1 (previously Bf2) -positive peripheral stromal compartment of
metanephric mesenchyme in the presence of fibroblast growth factor 2 (FGF2). In
addition, in isolated metanephric mesenchyme, BMP4-loaded beads prevented
apoptosis locally. Thus, BMP4 prevents cell death and promotes the growth of the
metanephric mesenchyme. The effect of BMP4 on periureteral mesenchyme is
different from its effect on metanephric mesenchyme. In utero, periureteral
mesenchymal cells condense around the ureter epithelium, followed by
differentiation into smooth muscle cells at a site where Bmp4 is intensely
expressed. Analysis of Bmp4+/- ureters at E15.5 reveals that the alpha-smooth
muscle actin (alpha-SMA)-positive cells are low in number. In vitro, BMP4-loaded
beads promote the accumulation of periureteral mesenchymal cells to form several
cell layers surrounding the beads. In addition, in a Boyden chamber assay, BMP4
increases the migration of periureteral mesenchymal cells through the filter.
Thus, BMP4 can serve as a chemoattractant for periureteral mesenchymal cells and
induce locally the smooth muscle layer of the ureter at Bmp4-expressing sites.
CONCLUSION: Depending on local context, BMP4 has several biological actions on
the morphogenesis of different portions of the excretory system, namely, the
development of the ureterovesical junction, the ureter, and the kidney.

PMID: 12631064 [PubMed - indexed for MEDLINE]


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3: Dev Biol. 1999 Jul 1;211(1):53-63. 

Dorsal-ventral patterning defects in the eye of BF-1-deficient mice associated
with a restricted loss of shh expression.

Huh S, Hatini V, Marcus RC, Li SC, Lai E.

Cell Biology Program, Memorial Sloan-Kettering Cancer Center, New York, New
York, 10021, USA.

Brain factor 1 (BF-1) is a winged-helix transcription factor with restricted
expression in the anterior optic vesicle and in the telencephalic
neuroepithelium of the neural tube. We have previously found that targeted
disruption of the BF-1 gene results in hypoplasia of the cerebral hemispheres,
which is more severe in structures derived from the ventral telencephalon. Here
we show that the loss of BF-1 leads to multiple developmental anomalies of the
eyes. The most ventral structure arising from the optic vesicle, the optic
stalk, is missing and is replaced by an expanded retina. Ventral closure of the
optic cup and choroid fissure does not occur. These dorsal-ventral patterning
defects are not limited to the BF-1-expressing (anterior) cells, but also
involve the cells of the posterior optic vesicle. Sonic hedgehog (shh)
expression within the ventral telencephalic neuroepithelium is specifically lost
in the BF-1(-/-) mutant. Taken together, these findings suggest that shh
produced at this site plays a role in patterning the developing eye. This
localized deficit in shh expression may also contribute to the prominence of the
ventral defects in the telencephalon of the BF-1(-/-) mutant. Copyright 1999
Academic Press.

PMID: 10373304 [PubMed - indexed for MEDLINE]


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