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Fig. 1. Sequence and structure of Xenopus
frizzled-8 (xfz8). Deduced amino acid
sequences from xfz8, mouse frizzled-8
(mfz8) and Drosophila frizzled (Dfz1) were
aligned using MacVector 6.0 ClustalW
alignment. Identical amino acids are in
black boxes and similar amino acids are
shaded. Signal sequences are boxed, ten
highly conserved cysteines of the putative
extracellular ligand-binding domain are
indicated by asterisks (*), transmembrane
regions are underlined by black bars and
putative PDZ-binding sites are indicated
by an arrowhead. Xfz8 sequence has been
deposited into the GenBank database
under accession number AF033110.
Illustrated in B is the proposed structure of
frizzleds; the transmembrane domains, the
putative Wnt-interacting cysteine-rich
domain (CRD), and the structure of a
putative inhibitory form of frizzled (Nfz).
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Fig. 2. Expression of xfz8. Whole-mount in situ hybridization was
performed on albino embryos from stage 9.5 (A), stage 10+ (B,F),
stage 12 (C,G), stage 21 (D,H) and stage 30 (E). After visualization,
embryos were sectioned (F-H). The dorsal blastopore lip is indicated
by an arrow in B,C,F and G. Xfz8 expression at stage 10 (F) is in the
anterior endomesodermal cells deep to Brachet’s cleft (b) (Keller,
1991), at stage 12 (G) in both anterior mesoderm and ectoderm and
at stage 21 (H) in the stomatodeal-hypophyseal anlage (s) as well as
surrounding tissues. At stage 30 (E), xfz8 is expressed in a variety of
developing organ systems including the stomatodeal anlage (s), the
heart anlage (h), the pronephric duct (p) and the branchial arches (b).
Xfz8 expression in embryos is abolished by UV ventralization and
radialized by lithium chloride treatment (I) similarly to chordin
expression (J).
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Fig. 3. Xfz8 induces ectopic axis
formation and rescues UV ventralization.
Ventral injection of 100 pg to 1000 ng of
xfz8 RNA into a 4-cell blastomere can
induce a single (A) ectopic axis complete
with eyes and cement gland and
frequently multiple ectopic axes (B,
arrows in all panels represent cement
glands of primary and ectopic axes). A
dose-response curve for axis formation is
shown in C. The number of ectopic axes
per embryo is plotted with respect to the
dose of xfz8 injected, with the solid black
portion of the bar representing complete
ectopic axes containing a well-formed
cement gland and at least one eye and the
open portion representing partial axes.
The total number of embryos injected
from three independent experiments is
indicated at the top of each bar. The dashed line indicates an average frequency of one ectopic axis per embryo. UV ventralization (D) is
rescued by injection of a low dose (100 pg) of xfz8 (E). This dose results in 81% of injected embryos (n=51) rescued to this extent. Note that at
this and higher doses, cement gland is well formed, but there is a paucity of head structures and an open neural fold. Ventral injection of xfz8
induces organizer markers (F). Embryos were injected ventrally with 1 ng xfz8 RNA at the 8-cell stage. At stage 10.25, dorsal marginal zones
(DMZs) and ventral marginal zones (VMZs) were dissected and assayed by RT-PCR for organizer marker gene expression. Siamois, Xnr3,
goosecoid and noggin are upregulated in xfz8-injected VMZs.
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Fig. 4. Xfz8 synergizes with Xwnt-8 to induce complete axes and Xwnt-5A to induce
partial axes. HA-tagged Xwnt-8 (Xwnt-8HA, 2-5 pg) or Xwnt-5A (40 pg) were injected
ventrally into 4-cell embryos either with or without xfz8 (50-100 pg). (A) Late neurula
embryos oriented with the anterior toward the top. The anterior end of each ectopic axis
is indicated by an arrow. (B) A histogram showing compilations of three independent
experiments indicates percent of embryos with ectopic axes for the injections indicated.
(C) Histogram illustrates that the activity of an axis-inducing dose of Xwnt-8HA (50 pg) is
inhibited by coinjection with varying doses of Nxfz8 RNA (100 pg and 1 ng), but not b-
galactosidase RNA (1 ng). (D) In a cell nonautonomous assay, Xwnt-8HA (50 pg) and
Nxfz8 (1ng) or GFP RNA (1 ng) were injected into adjacent blastomeres of an 8-cell
embryo. In all histograms, the bar represents percent of embryos with axis duplication,
with the solid portion indicating complete axes as judged in Fig. 3. The total number of
embryos injected is indicated above each bar.
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Fig. 5. Nxfz8 enhances dorsoanterior structures and disrupts trunk structures. Injection
of 1 ng of Nxfz8 or Nmfz8 RNA into a dorsal animal blastomere of 4-cell embryos
(B,D,F,H,J,L,N) leads to a delay in closure of the blastopore (A versus B), expanded
cement gland and failure to close the neural folds (C versus D), and tadpoles with
enlarged heads, enlarged cement glands and shortened body axis (E versus F).
Longitudinal (K,L) and cross-sectional (M,N) histological analysis of control (K,M)
and Nxfz8-injected (L,N) embryos reveals the presence of expected tissues for this
stage of development. These include notochord (n), somite (s), forebrain (f), cement
gland (c) and heart (h) as indicated. In K-L, all illustrated at the same scale, it is
evident that many structures, notochord being the most prevalent, are shortened in the
anterior-posterior axis (K versus L) and expanded laterally (M versus N). This effect of
Nfz8 injections is evident by neurula stage in embryos (G-J). Longitudinal (G,H) and
cross sectional (I,J) histological analysis of control (G,I) and Nxfz8-injected (H,J)
neurulae indicate A-P compression. Here, developing optic cup (o) is postitioned much
closer to the blastopore (wide arrow) while the notochord (n) and the neural plate
(edges marked by small arrows) is expanded laterally. Embryos in E-H,K,L) are
oriented with the anterior to the left. Embryos in panels (A-D,I,J,M,N) are oriented
with the dorsal to the top.
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Fig. 6. The phenotype caused by Nxfz8
RNA injection is rescued by full-length
xfz8 RNA. Embryos were injected with
Nxfz8 (250 pg; B,D-F) and 125 pg (D),
250 pg (E) or 500 pg (F) of xfz8 RNA
into a single dorsal animal B1 blastomere
of the 32-cell embryo (Nakamura and
Kishiyama, 1971). Uninjected stage 35
sibling embryos are shown for
comparison (A). All embryos are
oriented with anterior toward the left. A
histogram summary (C) of these
experiments indicates the percent of
embryos that are scored as normal using
the criteria outlined in the text. The head
of a duplicated axis, complete with eye
and cement gland is indicated with an
arrow (F).
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Fig. 7. In situ hybridization analysis with dorsal and lateral markers
reveals that Nxfz8 inhibits dorsal convergence and embryonic
elongation. Embryos, either uninjected (A,C,E,G) or injected with 1
ng of Nmfz8 RNA into an animal blastomere (B,D,F,H) were
analyzed by in situ hybridization for chordin (A-D) or myoD (E-H).
Stages shown are mid-gastrula (A,B,E,F) or late gastrula/early
neurula (C,D,G,H). Embryos are oriented with dorsal (A,B,E,F) or
anterior (C,D,G,H) toward the top of the picture. RT-PCR analysis
indicates that Nxfz8s effect is not via a general delay in gastrulation
(I). Embryos were injected with 1 ng of Nxfz8 RNA into a dorsal
animal blastomere at the 8-cell stage. Whole embryos were collected
beginning just after MBT (Stage 8.5) through stage 10.5, when the
Nxfz8 phenotype is visibly apparent. Whole embryos were subjected
to RT-PCR analysis for a number of markers to determine both
temporal expression with respect to xfz8 and potential delays in gene
expression caused by Nxfz8. Stages are indicated at the top, with a
(+) indicating Nxfz8 RNA injection. Vertical lines have been
superimposed to aid in comparison of uninjected and injected
embryos for each time point. A negative control without reverse
transcriptase is indicated in the right lane (-RT). No markers
analyzed had appreciably different expression levels at any time
point analyzed. Comparison of upstream Wnt inhibitors on myoD
expression (J-Q). At the four cell stage, RNAs encoding the upstream
wnt inhibitors Nxfz8 (K,O), Frzb-1 (L,P) and dnXwnt-8 (M,Q) were
injected into a single dorsal animal blastomere of a pigmented
embryo (J-M) or half the dose into the marginal zone of each
blastomere (i.e. twice the total dose) of albino embryos (O-K). All
injections resulted in a strong phenotype. Doses for dorsal injections
were: Nxfz8, 500 pg; Frzb-1, 500 pg; dnXwnt-8, 2 ng.
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Fig. 8. Nxfz8 inhibits elongation but not specification of activininduced
animal caps. Embryos were injected at the 1-cell stage with
1 ng Nxfz8. At stage 8, animal explants were dissected and cultured
in medium containing activin protein at a concentration previously
titered to induce elongation of animal caps. Animal caps from
uninjected embryos (A-D) and Nxfz8-injected embryos (E-H) are
shown. Caps treated with activin (C,G) exhibit dramatic differences
in the amount of elongation at the late neurulae stage (stage 17).
Histological analysis of tadpole stage (stage 34) activin-treated caps
(D,H) indicates notochord (n) in both uninjected (D) in and Nxfz8-
injected caps (H). Untreated caps (B,F) exhibit only atypical
epidermis. RT-PCR molecular analysis of these caps is shown in (I).
Animal caps are shown in the left four lanes, and embryos in the
right three. Activin treatment and injection of Nxfz8 RNA (1 ng) are
indicated by a (+), as well as a negative control without reverse
transcriptase (-RT).
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Fig. 9. Activity of Nxfz8 expressed after MBT. Embryos were
injected at the 8-cell stage into a single dorsal marginal blastomere.
Xwnt-8/CS2 (30 pg) inhibited head formation in 100% of embryos
(B; n=38) and Nxfz8/CS2 (200 pg) caused an expansion of cement
gland and shortened axes in 94% of embryos (C; n=30). Nxfz8/CS2
was able to inhibit Xwnt-8/CS2 and rescue head structures in 93% of
embryos (D; n=28).
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