Advertisement
JOURNAL ARTICLES
Msx1 (Hox-7.1) in the adult mouse uterus: cellular interactions underlying regulation of expression
A. Pavlova, E. Boutin, G. Cunha, D. Sassoon
Development 1994 120: 335-345;

Summary

We report here that Msx1 (formerly Hox-7.1) is expressed at high levels in uterine epithelial cells of the non-pregnant adult. These cells undergo pronounced changes in morphology in response to embryo implantation and show a concomitant decrease in Msx1 levels. While Msx1 is restricted to the uterus in adulthood, we observe Msx1 expression throughout the entire perinatal Mullerian duct epithelium in the prospective uterus, cervix and vagina. Through analysis of tissue recombinants, the expression of Msx1 in the epithelium was shown to be dependent upon an interaction with the underlying mesenchyme of uterine origin. The capacity of uterine mesenchyme to support or induce Msx1 expression in Mullerian epithelium is correlated with mesenchymal expression of Wnt-5a. Whereas Msx1 expression in the epithelium results from interaction with uterine mesenchyme, Wnt-5a expression is an intrinsic property of the uterine mesenchyme and does not depend upon the epithelium. The observation that Msx1 is expressed in the adult uterine epithelium and that conversion of the presumptive vaginal epithelium to uterine epithelium can be elicited only during the first week of postnatal development when Msx1 expression is detected suggests that, in addition to regulating various aspects of uterine epithelial morphology and function (e.g. gestation), this homeobox-containing gene plays a role in maintaining the uterus in a morphogenic and developmentally responsive state prerequisite for its unique function.

REFERENCES

    1. Benezra R.,
    2. Davis R. L.,
    3. Lockshon D.,
    4. Turner D. L.,
    5. Weintraub H.
    (1990) The protein Id: a negative regulator of helix-loop-helix DNA binding proteins. Cell 61, 4959
    OpenUrlCrossRefPubMedWeb of Science
    1. Bigsby R. M.,
    2. Cooke P. S.,
    3. Cunha G. R.
    (1986) A simple method for separating murine uterine epithelial and mesenchymal cells. Am. J. Physiol 251, 630636
    OpenUrl
    1. Boutin E. L.,
    2. Sanderson R. D.,
    3. Bernfield M.,
    4. Cunha G. R.
    (1991) Epithelia-mesenchymal interactions in uterus and vagina alter the expression of the cell surface proteoglycan, syndecan. Dev. Biol 148, 6374
    OpenUrlCrossRefPubMed
    1. Boutin E. L.,
    2. Battle E.,
    3. Cunha G. R.
    (1992) The germ layer origin of mouse vaginal epithelium restricts its responsiveness to mesenchymal induc-tors: uterine induction. Differentiation 49, 101107
    OpenUrlCrossRefPubMed
    1. Boutin E. L.,
    2. Fallon J. F.
    (1992) Insulin improves survival but does not maintain function of cultured chick wing bud apical ectodermal ridge. Anat. Rec 233, 467477
    OpenUrlCrossRefPubMed
    1. Brody J. R.,
    2. Cunha G. R.
    (1989) Histologic, morphometric and immunocytochemical analysis of myometrial development in rats and mice. 1. Normal development. Am. J. Anat 186, 120
    OpenUrlCrossRefPubMedWeb of Science
    1. Chisaka O.,
    2. Capecchi M. R.
    (1991). Regionally restricted developmental defects resulting from targeted disruption of the mouse homeobox gene Hox-1.5. Nature 350, 473479
    OpenUrlCrossRefPubMed
    1. Coelho C. N. D.,
    2. Krabbenhoft K.,
    3. Upholt W. B.,
    4. Fallon J. F.,
    5. Kosher R. A.
    (1991) Altered expression of the chicken homeobox-containing genes GHox-7 and GHox-8 in the limb buds of limbless mutant chick embryos. Development 113, 14871493
    OpenUrlAbstract
    1. Cunha G. R.
    (1976) Stromal induction and specification of morphogenesis and cytodifferentiation of the epithelia of the Mullerian ducts and urogenital sinus during development of the uterus and vagina in mice. J. Exp. Zool 196, 361370
    OpenUrlCrossRefPubMedWeb of Science
    1. Cunha G. R.,
    2. Bigsby R. M.,
    3. Cooke P. S.,
    4. Sugimura Y.
    (1985) Stro-mal-epithelial interactions in adult organs. Cell Diff 17, 137148
    OpenUrlCrossRefPubMedWeb of Science
    1. Cunha G. R.,
    2. Young P.,
    3. Hamamoto S.,
    4. Guzman R.,
    5. Nandi S.
    (1992) Developmental response of adult mammary epithelial cells to various fetal and neonatal mesenchymes. Epithelial Cell Biol 1, 105118
    OpenUrlPubMed
    1. Davidson D. R.,
    2. Crawley A.,
    3. Hill R. E.,
    4. Tickle C.
    (1991) Position-dependent expression of two related homeobox genes in developing ver-tebrate limbs. Nature 352, 429431
    OpenUrlCrossRefPubMed
    1. Dhouailly D.
    (1976) Analyse des facteurs de la differenciation specifique de la plume neoptile chez le canard et le poulet. J. Embryol. Exp. Morph 18, 389400
    OpenUrl
    1. Duggal R. N.,
    2. Zakeri Z. F.,
    3. Ponzetto C.,
    4. Wolgemuth D. J.
    (1987). Dif-ferential expression of the c-abl proto-oncogene and the homeobox-contain-ing gene Hox-1.4 during mouse spermatogenesis. In Cell Biology of the Testis and Epididymis (ed. M. C. Orgebin-Crist and B. J. Danzo). Ann. NY Acad Sci 513, 112127
    OpenUrlPubMed
    1. Forsberg J.-G.
    (1973) Cevicovaginal epithelium: Its origin and development. Am. J. Obstet. Gynecol 115, 10251043
    OpenUrlPubMedWeb of Science
    1. Gavin B. J.,
    2. McMahon J. A.,
    3. McMahon A. P.
    (1990) Expression of multiple novel Wnt −1/int-1-related genes during fetal and adult mouse devel-opment. Genes Dev 4, 23192332
    OpenUrlAbstract/FREE Full Text
    1. Gavin B. J.,
    2. McMahon A. P.
    (1991) Differential regulation of the Wnt gene family during pregnancy and lactation suggests a role in postnatal development of the mammary gland. Mol. Cell. Biol 12, 24182423
    OpenUrlAbstract/FREE Full Text
    1. Gehring W. J.,
    2. Hiromi Y.
    (1986) Homeotic genes and the homeobox. Ann. Rev. Genet 20, 147173
    OpenUrlCrossRefPubMedWeb of Science
    1. Haffen K.,
    2. Kedinger M.,
    3. Simon-Assmann P.
    (1987) Mesenchyme-dependent differentiation of epithelial progenitor cells in the gut. J. Pediatr. Gastroenterol. Nutr 6, 1423
    OpenUrlPubMedWeb of Science
    1. Handy D. E.,
    2. McCluskey J.,
    3. Lew A. M.,
    4. Coligar J. E.,
    5. Margulies D. H.
    (1988) Signals controlling alternative splicing of major histocompatibil-ity complex H-2 class I pre-mRNA. Immunogenetics 28, 8190
    OpenUrlCrossRefPubMed
    1. Hill R. E.,
    2. Jones P. F.,
    3. Rees A. R.,
    4. Sime C. M.,
    5. Justice M. J.,
    6. Copeland N. G.,
    7. Jenkins N. A.,
    8. Graham E.,
    9. Davidson D. R.
    (1989). A new family of mouse homeobox-containing genes: molecular structure, chromo-somal location, and developmental expression of Hox7.1. Genes Dev 3, 2637
    OpenUrlAbstract/FREE Full Text
    1. Holland P. W. H.
    (1991) Cloning and evolutionary analysis of msh-like genes from mouse, zebrafish and ascidian. Gene 98, 253257
    OpenUrlCrossRefPubMedWeb of Science
    1. Jackson I. J.,
    2. Schofield P.,
    3. Hogan B.
    (1985) A mouse homeobox gene is expressed during embryogenesis and in the adult kidney. Nature 317, 745748
    OpenUrlCrossRefPubMed
    1. Jen Y.,
    2. Weintraub H.,
    3. Benezra R.
    (1992) Overexpression of Id protein inhibits the muscle differentiation program: in vivo association of Id with E2A proteins. Genes Dev 6, 14661479
    OpenUrlAbstract/FREE Full Text
    1. Jones C. M.,
    2. Lyons K. M.,
    3. Hogan B. L. M.
    (1991) Involvement of Bone Morphogenetic Protein-4 (BMP-4) and Vgr-1 in morphogenesis and neuro-genesis in the mouse. Development 111, 531542
    OpenUrlAbstract
    1. Jowett A. K.,
    2. Vainio S.,
    3. Ferguson M. W. J.,
    4. Sharpe P. T.,
    5. Thesleff I.
    (1993) Epithelial-mesenchymal interactions are required for Msx1 and Msx −2 gene expression in the developing murine molar tooth. Development 117, 461470
    OpenUrlAbstract
    1. Kessel M.,
    2. Gruss P.
    (1991) Homeotic transformations of murine verte-brae and concomitant alteration of Hox codes induced by retinoic acid. Cell 67, 89104
    OpenUrlCrossRefPubMedWeb of Science
    1. Lufkin T.,
    2. Dierich A.,
    3. LeMeur M.,
    4. Mark M.,
    5. Chambon P.
    (1991). Disruption of the Hox-1.6 homeobox gene results in defects in a region cor-responding to its rostral domain of expression. Cell 66, 11051119
    OpenUrlCrossRefPubMedWeb of Science
    1. Lyons K. M.,
    2. Pelton R. W.,
    3. Hogan B. L. M.
    (1989) Patterns of expre-sion of murine Vgr-1 and BMP-2a RNA suggest that transforming growth factor--like genes coordinately regulate aspects of embryonic development. Genes Dev 3, 16571668
    OpenUrlAbstract/FREE Full Text
    1. Mackenzie A.,
    2. Leeming G. L.,
    3. Jowett A. K.,
    4. Ferguson M. W. J.,
    5. Sharpe P. T.
    (1991). The homeobox gene Hox7.1 has specific regional and temporal expression patterns during early murine craniofacial embryogenesis, especially tooth development in vivo and in vitro. Development 111, 269285
    OpenUrlAbstract
    1. MacKenzie A.,
    2. Ferguson M. W. J.,
    3. Sharpe P. T.
    (1992) Expression patterns of the homeobox gene Hox-8 in the mouse embryo suggest a role in specifying tooth initiation and shape. Development 115, 403420
    OpenUrlAbstract
    1. McMahon A. P.,
    2. Joyner A. L.,
    3. Bradley A.,
    4. McMahon J. A.
    (1992). Themid-hindbrain phenotype of Wnt −1/ Wnt −1mice results from a stepwise dele-tion of engrailed -expressing cells by 9.5 days post-coitum. Cell 69, 581595
    OpenUrlCrossRefPubMedWeb of Science
    1. Monaghan A. P.,
    2. Hill R. E.,
    3. Bhattacharya S. S.,
    4. Graham E.,
    5. David-son D. R.
    (1991) Msh-like homeobox genes define domains in the develop-ing vertebrate eye. Development 112, 10531061
    OpenUrlAbstract
    1. Muneoka K.,
    2. Sassoon D.
    (1992) Molecular aspects of regeneration in developing vertebrate limbs. Dev. Biol 152, 3749
    OpenUrlCrossRefPubMed
    1. Niswander L.,
    2. Martin G.
    (1993) FGF-4 regulates expression of Evx-1 in the developing mouse limb. Development 119, 287294
    OpenUrlAbstract
    1. Parr B. A.,
    2. Shea M. J.,
    3. Vassileva G.,
    4. McMahon A. P.
    (1993) Mouse Wnt genes exhibit discrete domains of expression in the early embryonic CNS and limb buds. Development 119, 247261
    OpenUrlAbstract
    1. Redline R. W.,
    2. Williams A. J.,
    3. Patterson P.,
    4. Collins T.
    (1992) Human HOX4E: a gene strongly expressed in the adult male and female urogenital tracts. Genomics 13, 425430
    OpenUrlCrossRefPubMedWeb of Science
    1. Robert B.,
    2. Sassoon D.,
    3. Jacq B.,
    4. Gehring W.,
    5. Buckingham M.
    (1989) Expression of a novel Hox gene, Hox-7, during mouse embryogenesis, is associated with morphogenetic phenomena. EMBO J 8, 91100
    OpenUrlPubMedWeb of Science
    1. Robert B.,
    2. Lyons G.,
    3. Simandl B.-K.,
    4. Kuroiwa A.,
    5. Buckingham M.
    (1991) The apical ectodermal ridge regulates Hox-7 and Hox-8 gene expression in developing limb buds. GenesDev 5, 23632374
    OpenUrlAbstract/FREE Full Text
    1. Ruch J. V.,
    2. Lesot H.,
    3. Karcher-Djuricic V.,
    4. Meyer J. M.,
    5. Mark M.
    (1983) Epithelial-mesenchymal interactions in tooth germs: mechanisms of differentiation. J. Biol. Buccale 11, 7393
    OpenUrl
    1. Sakakura T.,
    2. Nishizuka Y.,
    3. Dawe C. J.
    (1976) Mesenchyme-depen-dent morphogenesis and epithelium-specific cytodifferentiation in mouse mammary gland. Science 194, 14391441
    OpenUrlAbstract/FREE Full Text
    1. Sassoon D.,
    2. Garner I.,
    3. Buckingham M. E.
    (1988) Transcripts for a-car-diac and a-skeletal actin are early markers for myogenesis in the mouse embryo. Development 104, 155164
    OpenUrlAbstract
    1. Sassoon D.,
    2. Rosenthal N.
    (1993) Detection of messenger RNA by in situ hybridization. In. Methods in Enzymology 225, 384404
    OpenUrlPubMedWeb of Science
    1. Scott M.
    (1992) Vertebrate homeobox gene nomenclature. Cell 71, 551553
    OpenUrlCrossRefPubMedWeb of Science
    1. Song K.,
    2. Wang Y.,
    3. Sassoon D. A.
    (1992). Expression of Hox-7.1 in myoblasts results in inhibition of differentiation and induces cell transforma-tion. Nature 360, 477481
    OpenUrlCrossRefPubMed
    1. Summerbell D.,
    2. Lewis J. H.,
    3. Wolpert L.
    (1973) Positional information in chick limb morphogenesis. Nature 244, 492496
    1. Summerbell D.
    (1974) A quantitative analysis of the effect of excision of the AER from the chick limb bud. J. Embryol. Exp. Morph 32, 651660
    OpenUrlPubMedWeb of Science
    1. Suzuki H. R.,
    2. Padanilam B. J.,
    3. Vitale E.,
    4. Ramirez F.,
    5. Solursh M.
    (1991) Repeating developmental expression of G-Hox 7, a novel homeobox-containing gene in the chicken. Dev. Biol 148, 375388
    OpenUrlCrossRefPubMedWeb of Science
    1. Takahashi Y.,
    2. Bontoux M.,
    3. Le Douarin N. M.
    (1991) Epithelio-mes-enchymal interactions are critical for Quox-7 expression and membrane bone differentiation in the neural crest derived mandibular mesenchyme. EMBO J 10, 23872393
    OpenUrlPubMedWeb of Science
    1. Thesleff I.,
    2. Hurmerinta K.
    (1981) Tissue interactions in tooth develop-ment. Differentiation 18, 7588
    OpenUrlPubMedWeb of Science
    1. Wang Y.,
    2. Benezra R.,
    3. Sassoon D. A.
    (1992) Id expression during mouse development: a role in morphogenesis. Devel. Dynamics 194, 222230
    OpenUrlPubMed
Back to top

 Download PDF

Email
JOURNAL ARTICLES
Msx1 (Hox-7.1) in the adult mouse uterus: cellular interactions underlying regulation of expression
A. Pavlova, E. Boutin, G. Cunha, D. Sassoon
Development 1994 120: 335-345;
del.icio.us logo Digg logo Reddit logo Twitter logo CiteULike logo Facebook logo Google logo Mendeley logo
Citation Tools
Alerts

Article navigation

Other journals from The Company of Biologists

Advertisement

An interview with Swathi Arur

Swathi Arur joined the team at Development as an Academic Editor in 2020. Her lab uses multidisciplinary approaches to understand female germline development and fertility. We met with her over Zoom to hear more about her life, her career and her love for C. elegans.

Jim Wells and Hanna Mikkola join our team of Editors

We are pleased to welcome James (Jim) Wells and Hanna Mikkola to our team of Editors. Jim joins us a new Academic Editor, taking over from Gordan Keller, and Hanna joins our team of Associate Editors. Find out more about their research interests and areas of expertise.

New funding scheme supports sustainable events

As part of our Sustainable Conferencing Initiative, we are pleased to announce funding for organisers that seek to reduce the environmental footprint of their event. The next deadline to apply for a Scientific Meeting grant is 26 March 2021.

Read & Publish participation continues to grow

“I’d heard of Read & Publish deals and knew that many universities, including mine, had signed up to them but I had not previously understood the benefits that these deals bring to authors who work at those universities.”

Professor Sally Lowell (University of Edinburgh) shares her experience of publishing Open Access as part of our growing Read & Publish initiative. We now have over 150 institutions in 15 countries and four library consortia taking part – find out more and view our full list of participating institutions.

Upcoming special issues

Imaging Development, Stem Cells and Regeneration
Submission deadline: 30 March 2021
Publication: mid-2021

The Immune System in Development and Regeneration
Guest editors: Florent Ginhoux and Paul Martin
Submission deadline: 1 September 2021
Publication: Spring 2022

Both special issues welcome Review articles as well as Research articles, and will be widely promoted online and at key global conferences.

Development presents...

Our successful webinar series continues into 2021, with early-career researchers presenting their papers and a chance to virtually network with the developmental biology community afterwards. Here, Brandon Carpenter talks about how inherited histone methylation defines the germline versus soma decision in C. elegans

Sign up to join our next session:

10 March
Time: TBC
Chaired by: Thomas Lecuit