Enital distance in both wild type male and female pups (Figs.
Enital distance in both wild type male and female pups (Figs. 4H , bracket). The same tissue in the Six12/2;Six2+/2 CAL120 chemical information mutant washypoplastic, and the anoTeriparatide custom synthesis genital distance was significantly reduced (Fig. 4P and Q). Consistent with these gross defects, the mutant genital tubercles were hypoplastic. The Six1 and Six2 double null mutants exhibited a severe agenesis defect since the genital tubercle and the perineum were nearly absent (Fig. 4R and S). InFigure 3. An inducible genetic fate map of Six2-expressing PCM progenitors. Double Six2GCE/+;R26RLacZ pregnant females were treated with a single dose of tamoxifen at e11.5, e13.5, e14.5 and e15.5, and all embryos were collected and analyzed at e17.5 with X-gal staining (blue). (A, E, I and M) kidney sections; (B , F , J and N ) urogenital sections. CB, prospective corporal body; GT, genital tubercle; P, perineum; PF, preputial fold; PG, preputial gland; U, urethra. doi:10.1371/journal.pone.0055587.gCloaca Septation and Urogenital DevelopmentFigure 4. Genital urinary and anorectal defects of Six1;Six2 compound mutants. (A) A table of urogenital phenotypes of Six1;Six2 compound mutants. (B ) Gross ventral views of external urogenital structures. (H ) Hematoxylin and eosin (H E) staining of midline sagittal sections of urogenital structures from newborn pups. A, anus; B, bladder; GT, genital tubercle; T, tail; UM, urethral meatus; UC, umbilical cord; U, urethra; V, vagina. doi:10.1371/journal.pone.0055587.gaddition, the anal canal of the double null mutants was absent, resulting in a direct exposure of rectum epithelium (Fig 4, compare asterisk in M and S). Together, these findings suggest that Six1 and Six2 are required for the development of both digestive and urinary outlets.Survival and proliferation of PCM progenitors depend on Six1 and SixBecause of the rarity of obtaining double null mutants, we used Six12/2;Six2+/2 compound mutants to further characterize primary defects of digestive and urinary outlets during early embryogenesis. In wild type embryos, three populations of mesenchymal cells were apparent at e11.5 along midline sagittal sections, the ventral vPCM, the dorsal dPCM and the internalCloaca Septation and Urogenital DevelopmentICM (Fig. 5). The caudal side of the cloaca was covered by the cloacal membrane, which was a composite of endoderm and ectoderm epithelia but devoid of any mesenchyme. At this stage, the distal end of ICM was juxtapositioned but not fused with dPCM and the cloacal membrane (Fig. 5C, asterisk), the likely site of the future anal canal. This unique juxtaposition separated the urogenital sinus and rectum, thereby serving as the first sign of separation between the urinary and the digestive tract (Fig. 5C). Asymmetric growth of these mesenchymal cells was likely involved in remodeling of the urogenital sinus to form the genital tubercle and the anal canal. In Six12/2;Six2+/2 mutants, the relative position of the cloacal mesenchyme, the cloacal membrane, and the unique juxtaposition were maintained (Fig. 5F). However, it was apparent that both the dPCM and the vPCM were hypoplastic, and that the size of the mutant genital tubercle was significantly smaller (Fig. 5D , and data not shown). These observations suggest that Six1 and Six2 may control the growth and/or expansion of these tissues. Since Six1 is required for the survival of renal and cardiac progenitors [12,16,22], we first used TUNEL assays to determine if survival of the PCM progenitors depended on Six.Enital distance in both wild type male and female pups (Figs. 4H , bracket). The same tissue in the Six12/2;Six2+/2 mutant washypoplastic, and the anogenital distance was significantly reduced (Fig. 4P and Q). Consistent with these gross defects, the mutant genital tubercles were hypoplastic. The Six1 and Six2 double null mutants exhibited a severe agenesis defect since the genital tubercle and the perineum were nearly absent (Fig. 4R and S). InFigure 3. An inducible genetic fate map of Six2-expressing PCM progenitors. Double Six2GCE/+;R26RLacZ pregnant females were treated with a single dose of tamoxifen at e11.5, e13.5, e14.5 and e15.5, and all embryos were collected and analyzed at e17.5 with X-gal staining (blue). (A, E, I and M) kidney sections; (B , F , J and N ) urogenital sections. CB, prospective corporal body; GT, genital tubercle; P, perineum; PF, preputial fold; PG, preputial gland; U, urethra. doi:10.1371/journal.pone.0055587.gCloaca Septation and Urogenital DevelopmentFigure 4. Genital urinary and anorectal defects of Six1;Six2 compound mutants. (A) A table of urogenital phenotypes of Six1;Six2 compound mutants. (B ) Gross ventral views of external urogenital structures. (H ) Hematoxylin and eosin (H E) staining of midline sagittal sections of urogenital structures from newborn pups. A, anus; B, bladder; GT, genital tubercle; T, tail; UM, urethral meatus; UC, umbilical cord; U, urethra; V, vagina. doi:10.1371/journal.pone.0055587.gaddition, the anal canal of the double null mutants was absent, resulting in a direct exposure of rectum epithelium (Fig 4, compare asterisk in M and S). Together, these findings suggest that Six1 and Six2 are required for the development of both digestive and urinary outlets.Survival and proliferation of PCM progenitors depend on Six1 and SixBecause of the rarity of obtaining double null mutants, we used Six12/2;Six2+/2 compound mutants to further characterize primary defects of digestive and urinary outlets during early embryogenesis. In wild type embryos, three populations of mesenchymal cells were apparent at e11.5 along midline sagittal sections, the ventral vPCM, the dorsal dPCM and the internalCloaca Septation and Urogenital DevelopmentICM (Fig. 5). The caudal side of the cloaca was covered by the cloacal membrane, which was a composite of endoderm and ectoderm epithelia but devoid of any mesenchyme. At this stage, the distal end of ICM was juxtapositioned but not fused with dPCM and the cloacal membrane (Fig. 5C, asterisk), the likely site of the future anal canal. This unique juxtaposition separated the urogenital sinus and rectum, thereby serving as the first sign of separation between the urinary and the digestive tract (Fig. 5C). Asymmetric growth of these mesenchymal cells was likely involved in remodeling of the urogenital sinus to form the genital tubercle and the anal canal. In Six12/2;Six2+/2 mutants, the relative position of the cloacal mesenchyme, the cloacal membrane, and the unique juxtaposition were maintained (Fig. 5F). However, it was apparent that both the dPCM and the vPCM were hypoplastic, and that the size of the mutant genital tubercle was significantly smaller (Fig. 5D , and data not shown). These observations suggest that Six1 and Six2 may control the growth and/or expansion of these tissues. Since Six1 is required for the survival of renal and cardiac progenitors [12,16,22], we first used TUNEL assays to determine if survival of the PCM progenitors depended on Six.