Irina B Grishina, Ph.D.

Bmp7 Functions via a Polarity Mechanism to Promote Cloacal Septation
Xu, Kun; Wu, Xinyu; Shapiro, Ellen; Huang, Honging; Zhang, Lixia; Hickling, Duane; Deng, Yan; Lee, Peng; Li, Juan; Lepor, Herbert; Grishina, Irina
2012 ;7(1):e29372-e29372, PLoS ONE
BACKGROUND: During normal development in human and other placental mammals, the embryonic cloacal cavity separates along the axial longitudinal plane to give rise to the urethral system, ventrally, and the rectum, dorsally. Defects in cloacal development are very common and present clinically as a rectourethral fistula in about 1 in 5,000 live human births. Yet, the cellular mechanisms of cloacal septation remain poorly understood. METHODOLOGY/PRINCIPAL FINDINGS: We previously detected Bone morphogenetic protein 7 (Bmp7) expression in the urorectal mesenchyme (URM), and have shown that loss of Bmp7 function results in the arrest of cloacal septation. Here, we present evidence that cloacal partitioning is driven by Bmp7 signaling in the cloacal endoderm. We performed TUNEL and immunofluorescent analysis on cloacal sections from Bmp7 null and control littermate embryos. We found that loss of Bmp7 results in a dramatic decrease in the endoderm survival and a delay in differentiation. We used immunological methods to show that Bmp7 functions by activating the c-Jun N-terminal kinase (JNK) pathway. We carried out confocal and 3D imaging analysis of mitotic chromosome bundles to show that during normal septation cells in the cloacal endoderm divide predominantly in the apical-basal direction. Loss of Bmp7/JNK signaling results in randomization of mitotic angles in the cloacal endoderm. We also conducted immunohistochemical analysis of human fetal sections to show that BMP/phospho-SMAD and JNK pathways function in the human cloacal region similar as in the mouse. CONCLUSION/SIGNIFICANCE: Our results strongly indicate that Bmp7/JNK signaling regulates remodeling of the cloacal endoderm resulting in a topological separation of the urinary and digestive systems. Our study points to the importance of Bmp and JNK signaling in cloacal development and rectourethral malformations
— id: 149933, year: 2012, vol: 7, page: e29372, stat: Journal Article,

Differentiation of the ductal epithelium and smooth muscle in the prostate gland are regulated by the Notch/PTEN-dependent mechanism
Wu X; Xu K; Zhang L; Deng Y; Lee P; Shapiro E; Monaco M; Makarenkova HP; Li J; Lepor H; Grishina I
2011 Aug 15;356(2):337-349, Developmental biology (Orlando)
We have shown previously that during branching morphogenesis of the mouse prostate gland, Bone morphogenetic protein 7 functions to restrict Notch1-positive progenitor cells to the tips of the prostate buds. Here, we employed prostate-specific murine bi-genic systems to investigate the effects of gain and loss of Notch function during prostate development. We show that Nkx3.1(Cre) and Probasin(Cre) alleles drive expression of Cre recombinase to the prostate epithelium and periepithelial stroma. We investigated the effects of gain of Notch function using the Rosa(NI1C) conditional allele, which carries a constitutively active intracellular domain of Notch1 receptor. We carried out the analysis of loss of Notch function in Nkx3.1(Cre/+);RBP-J(flox/flox) prostates, where RBP-J is a ubiquitous transcriptional mediator of Notch signaling. We found that gain of Notch function resulted in inhibition of the tumor suppressor PTEN, and increase in cell proliferation and progenitor cells in the basal epithelium and smooth muscle compartments. In turn, loss of Notch/RBP-J function resulted in decreased cell proliferation and loss of epithelial and smooth muscle progenitors. Gain of Notch function resulted in an early onset of benign prostate hyperplasia by three months of age. Loss of Notch function also resulted in abnormal differentiation of the prostate epithelium and stroma. In particular, loss of Notch signaling and increase in PTEN promoted a switch from myoblast to fibroblast lineage, and a loss of smooth muscle. In summary, we show that Notch signaling is necessary for terminal differentiation of the prostate epithelium and smooth muscle, and that during normal prostate development Notch/PTEN pathway functions to maintain patterned progenitors in the epithelial and smooth muscle compartments. In addition, we found that both positive and negative modulation of Notch signaling results in abnormal organization of the prostate tissue, and can contribute to prostate disease in the adult organ
— id: 134432, year: 2011, vol: 356, page: 337, stat: Journal Article,

LEF1 Identifies Androgen-Independent Epithelium in the Developing Prostate
Wu, Xinyu; Daniels, Garrett; Shapiro, Ellen; Xu, Kun; Huang, Hongying; Li, Yirong; Logan, Susan; Greco, M Alba; Peng, Yi; Monaco, Marie E; Melamed, Jonathan; Lepor, Herbert; Grishina, Irina; Lee, Peng
2011 Jun;25(6):1018-1026, Molecular endocrinology
Lymphoid enhancer-binding factor (LEF)1 is a major mediator and a target in canonical Wnt/beta-catenin pathway. Interactions between the androgen receptor (AR) and canonical Wnt pathways have been implicated in the development of the genitourinary organs. Here, we investigated the localization and role of LEF1-positive cells during development of the prostate gland in human and in the murine model. We show that during human prostate development, LEF1 is restricted to the basal epithelial layer of the urogenital sinus. During mouse development, Lef1 is also present in the urogenital mesenchyme in addition to the basal epithelial layer of the urogenital sinus. In the course of elongation and branching of the prostatic ducts, Lef1 is localized to the proliferating epithelium at the distal tips of the buds. Notably, during branching morphogenesis, domains of Lef1 and AR are mutually exclusive. We further employed the TOPGAL reporter strain to examine the dynamics of Wnt signaling in the context of prostate regression upon a 7-d treatment with a competitive AR inhibitor, bicalutamide. We found that Wnt/Lef1-positive basal cells are not dependent upon androgen for survival. Furthermore, upon bicalutamide treatment, Wnt/Lef1-positive basal progenitors repopulated the luminal compartment. We conclude that Wnt/Lef1 activity identifies an androgen-independent population of prostate progenitors, which is important for embryonic development and organ maintenance and regeneration in the adult
— id: 132604, year: 2011, vol: 25, page: 1018, stat: Journal Article,

Bmp7 functions in septation of the murine cloaca by inhibiting the canonical Wnt signaling and favoring planar cell polarity
Grishina, I; Wu, XY; Shapiro, E; Xu, K
2009 JUL 15 ;331(2):443-443, Developmental biology (Orlando)
— id: 101254, year: 2009, vol: 331, page: 443, stat: Journal Article,

Bmp7 expression and null phenotype in the urogenital system suggest a role in re-organization of the urethral epithelium
Wu, Xinyu; Ferrara, Christopher; Shapiro, Ellen; Grishina, Irina
2009 Apr;9(4):224-230, Gene expression patterns
Signaling by Bone morphogenetic proteins (Bmps) has multiple and diverse roles in patterning and morphogenesis of the kidney, eye, limbs and the neural tube. Here, we employed the Bmp7(lacZ) strain to perform a detailed analysis of Bmp7 expression and the null phenotype during development of the mouse urogenital system. The urethral compartment originates in mid-embryogenesis from the ventral part of the cloaca, a transient cavity at the caudal end of the hindgut. At mid-gestation, Bmp7 expression was detected within several specific domains in the cloacal epithelium and mesenchyme. In late embryogenesis, Bmp7 expression was present in the urethra, rectum, the urethral glands, corpus cavernosum, and in the male and female genital ducts. Importantly, loss of Bmp7 resulted in arrest in cloacal septation, and severe defects in morphogenesis of the genital urethra and mesenchyme. Together, our analysis of Bmp7 expression and the null phenotype, indicates that Bmp7 may play an important role in re-organization of the epithelium during cloacal septation and morphogenesis of the genital tubercle
— id: 99585, year: 2009, vol: 9, page: 224, stat: Journal Article,

Notch signaling is important for epithelial and mesenchymal organization in the prostate gland
Wu, XY; Xu, K; Grishina, I
2009 JUL 15 ;331(2):513-513, Developmental biology (Orlando)
— id: 101257, year: 2009, vol: 331, page: 513, stat: Journal Article,

BMP7 inhibits branching morphogenesis in the prostate gland and interferes with Notch signaling
Grishina, Irina B; Kim, Sung Yup; Ferrara, Christopher; Makarenkova, Helen P; Walden, Paul D
2005 Dec 15;288(2):334-347, Developmental biology (Orlando)
The mouse prostate gland develops by branching morphogenesis from the urogenital epithelium and mesenchyme. Androgens and developmental factors, including FGF10 and SHH, promote prostate growth (Berman, D.M., Desai, N., Wang, X., Karhadkar, S.S., Reynon, M., Abate-Shen, C., Beachy, P.A., Shen, M.M., 2004. Roles for Hedgehog signaling in androgen production and prostate ductal morphogenesis. Dev. Biol. 267, 387-398; Donjacour, A.A., Thomson, A.A., Cunha, G.R., 2003. FGF-10 plays an essential role in the growth of the fetal prostate. Dev. Biol. 261, 39-54), while BMP4 signaling from the mesenchyme has been shown to suppresses prostate branching (Lamm, M.L., Podlasek, C.A., Barnett, D.H., Lee, J., Clemens, J.Q., Hebner, C.M., Bushman, W., 2001. Mesenchymal factor bone morphogenetic protein 4 restricts ductal budding and branching morphogenesis in the developing prostate. Dev. Biol. 232, 301-314). Here, we show that Bone Morphogenetic Protein 7 (BMP7) restricts branching of the prostate epithelium. BMP7 is expressed in the periurethral urogenital mesenchyme prior to formation of the prostate buds and, subsequently, in the prostate epithelium. We show that BMP7(lacZ/lacZ) null prostates show a two-fold increase in prostate branching, while recombinant BMP7 inhibits prostate morphogenesis in organ culture in a concentration-dependent manner. We further explore the mechanisms by which the developmental signals may be interpreted in the urogenital epithelium to regulate branching morphogenesis. We show that Notch1 activity is associated with the formation of the prostate buds, and that Notch1 signaling is derepressed in BMP7 null urogenital epithelium. Based on our studies, we propose a model that BMP7 inhibits branching morphogenesis in the prostate and limits the number of domains with high Notch1/Hes1 activity
— id: 63068, year: 2005, vol: 288, page: 334, stat: Journal Article,

A novel Cdk2 interactor is phosphorylated by Cdc7 and associates with components of the replication complexes
Grishina, Irina; Lattes, Bradford
2005 Aug;4(8):1120-1126, Cell cycle
Initiation of DNA replication in eukaryotic cells depends on the assembly of the prereplication complexes containing two hexamers, the Origin Recognition Complex (ORC) and the Minichromosome maintenance/DNA Replication Licensing complex (MCM); and on the subsequent conformational changes in the MCM complex leading to the formation of a competent DNA replication complex, firing of the DNA polymerase and disassembly of the MCM. The dynamics of the MCM complex is under the control of two Ser/Thr kinases, the Cell cycle-dependent kinase 2 (Cdk2) and Cell division cycle gene 7 (Cdc7). The precise substrates of the kinases at the origins and the sequence of events leading to the origins firing are not well understood. Using the two hybrid selection in yeast, we have identified a novel gene, the Cdk2 interacting protein, CINP. We show that CINP is a component of the active cyclin E /Cdk2 and cyclin A /Cdk2 complexes. CINP also interacts with Cdc7 and is phopshorylated by Cdc7, but not by Cdk2. We further show that CINP binds to chromatin in a replication-dependent manner, and associates with ORC2-containing complexes and MCM. We propose that CINP is part of the Cdc7-dependent mechanism of origin firing and a functional and physical link between Cdk2 and Cdc7 complexes at the origins
— id: 70649, year: 2005, vol: 4, page: 1120, stat: Journal Article,

BMP7 inhibits epithelial bud formation in the mouse prostate gland
Grishina, IB; Kim, SY; Makarenkova, HP; Walden, PD
2004 JUL 15 ;271(2):611-611, Developmental biology (Orlando)
— id: 47702, year: 2004, vol: 271, page: 611, stat: Journal Article,