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The “Fish-Specific” Hox Cluster Duplication Is Coincident with the Origin of TeleostsCrow, Karen D., Stadler, Peter F., Lynch, Vincent J., Amemiya, Chris, Wagner, Günter P. 10 December 2018 (has links)
The Hox gene complement of zebrafish, medaka, and fugu differs from that of other gnathostome vertebrates. These fishes have seven to eight Hox clusters compared to the four Hox clusters described in sarcopterygians and shark. The clusters in different teleost lineages are orthologous, implying that a “fish-specific” Hox cluster duplication has occurred in the stem lineage leading to the most recent common ancestor of zebrafish and fugu. The timing of this event, however, is unknown. To address this question, we sequenced four Hox genes from taxa representing basal actinopterygian and teleost lineages and compared them to known sequences from shark, coelacanth, zebrafish, and other teleosts. The resulting gene genealogies suggest that the fish-specific Hox cluster duplication occurred coincident with the origin of crown group teleosts. In addition, we obtained evidence for an independent Hox cluster duplication in the sturgeon lineage (Acipenseriformes). Finally, results from HoxA11 suggest that duplicated Hox genes have experienced diversifying selection immediately after the duplication event. Taken together, these results support the notion that the duplicated Hox genes of teleosts were causally relevant to adaptive evolution during the initial teleost radiation.
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Hox Specificity: Constrained vs. Flexible Requirements for the PBC and MEIS CofactorsUhl, Juli D. 17 October 2014 (has links)
No description available.
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A Journey Through the Developing Kidney:Analysis of normal and Hoxa9,10,11-/-Hoxd9,10,11-/- Mouse ModelsMagella, Bliss 07 June 2018 (has links)
No description available.
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CONSTRUCTION OF THE pC5C9LZAP VECTOR FOR ANALYSIS OF ELEMENTS RESPONSIBLE FOR SHARED AND SEPARATE REGULATION OF HOXC-8 AND HOXC-6Petrey, Maria Elaine 11 October 2001 (has links)
No description available.
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Regulation and function of the Lhx gene, lin-11, in Caenorhabditis elegans nervous system developmentAmon, Siavash January 2017 (has links)
Lhx genes are a sub-family of Hox genes that play important roles in animal development.
In Caenorhabditis elegans there are seven Lhx genes, including the founding
family member lin-11. The lin-11 gene is necessary for the specification of neuronal
and reproductive tissues. My thesis work has involved understanding the mechanism of
lin-11 regulation and its function in these tissues. To this end, I addressed two distinct
but complementary questions, one of which focused on how transcriptional regulation of
lin-11 occurs and the second on the role of LIN-11 protein domains/regions.
My work on the transcriptional regulation has uncovered important roles of two of the
largest lin-11 introns, intron 3 and intron 7. These introns promote lin-11 expression
in non-overlapping sets of amphid neurons. Based on gene expression patterns and
behavioural assays, intron 3 is capable of restoring lin-11 function in lin-11(n389 ) null
mutant allele. Comparison of intron 3-driven reporter expression in the neuronal cell
types between C. elegans and C. briggsae has revealed cis and trans evolutionary changes
in lin-11 regulation between the two species. Functional dissection of the introns in C.
elegans has led to the identification of three distinct non-overlapping enhancers, each
specific for a single amphid neuron, i.e., RIC, AIZ, and AVG. I have also identified
four transcription factors, SKN-1, CEH-6, CRH-1, and CES-1, that act through these
enhancers to regulate neuronal expression of lin-11.
Furthermore, I have characterized the function of the LIM domains and a proline-rich
(PRR) C-terminus region of LIN-11 in the specification of neuronal and reproductive
tissues. My work shows that while the LIM domains are required for LIN-11 function
in these tissues, the PRR region is dispensable. I have also examined the functional
conservation of lin-11 domains using two other Lhx genes, Drosophila melanogaster
(dLim1) and Mus musculus (Lhx1 ), and found that both of these genes were able to
rescue lin-11 defects. Together, my work has significantly advanced our understanding
of transcriptional regulation of lin-11, the importance of LIM domains in tissue formation,
and functional conservation of Lhx genes across phyla. / Thesis / Doctor of Philosophy (PhD)
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Inhibition of HOX/PBX dimer formation leads to necroptosis in acute myeloid leukemia cellsAlharbi, R.A., Pandha, H.S., Simpson, G.R., Pettengell, R., Poterlowicz, Krzysztof, Thompson, A., Harrington, K.J., El-Tanani, Mohamed, Morgan, Richard 08 July 2017 (has links)
Yes / The HOX genes encode a family of transcription factors that have key roles in both development and malignancy. Disrupting the interaction between HOX proteins and their binding partner, PBX, has been shown to cause apoptotic cell death in a range of solid tumors. However, despite HOX proteins playing a particularly significant role in acute myeloid leukemia (AML), the relationship between HOX gene expression and patient survival has not been evaluated (with the exception of HOXA9), and the mechanism by which HOX/PBX inhibition induces cell death in this malignancy is not well understood. In this study, we show that the expression of HOXA5, HOXB2, HOXB4, HOXB9, and HOXC9, but not HOXA9, in primary AML samples is significantly related to survival. Furthermore, the previously described inhibitor of HOX/PBX dimerization, HXR9, is cytotoxic to both AML-derived cell lines and primary AML cells from patients. The mechanism of cell death is not dependent on apoptosis but instead involves a regulated form of necrosis referred to as necroptosis. HXR9-induced necroptosis is enhanced by inhibitors of protein kinase C (PKC) signaling, and HXR9 combined with the PKC inhibitor Ro31 causes a significantly greater reduction in tumor growth compared to either reagent alone. / Funded in part through a grant to RA from the Cultural Bureau of the Kingdom of Saudi Arabia.
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The role of HOXB9 and miR-196a in head and neck squamous cell carcinomaDarda, L., Hakami, F., Morgan, Richard, Murdoch, C., Lambert, D.W., Hunter, K.D. 04 October 2015 (has links)
Yes / Background -
Previous studies have demonstrated that a number of HOX genes, a family of transcription
factors with key roles in early development, are up-regulated in head and neck squamous
cell carcinoma (HNSCC) and other cancers. The loci of several Homeobox (HOX) genes
also contain microRNAs (miRs), including miR-196a.
Methods -
Global miR expression and expression of all 39 HOX genes in normal oral keratinocytes
(NOKs), oral pre-malignant (OPM) and HNSCC cells was assessed by expression microarray
and qPCR and in tissues by immunohistochemistry (IHC) and qPCR of laser microdissected
(LCM) tissues. Expression of miR196a and HOXB9 was reduced using anti-miR-196a and
siRNA, respectively. Expression microarray profiles of anti-miR196a and pre-miR196a
transfected cells were compared to parental cells in order to identify novel targets of miR-
196a. Putative miR196a targets were validated by qPCR and were confirmed as binding to
the 3’UTR of miR196a by a dual luciferase reporter assay combined with mutational analysis
of the miR-196a binding site.
Results -
miR-196a and HOXB9 are highly expressed in HNSCC compared to NOKs, a pattern also
seen in HNSCC tissues by HOXB9 IHC and qPCR of miR-196a in LCM tissue. Knock-down
of miR-196a expression decreased HNSCC cell migration, invasion and adhesion to fibronectin,
but had no effect on proliferation. Furthermore, knock-down of HOXB9 expression
decreased migration, invasion and proliferation but did not alter adhesion. We identified a
novel primary mRNA transcript containing HOXB9 and miR196a-1 as predicted from in-silico
analysis. Expression array analysis identified a number of miR196a targets, including MAMDC2 and HOXC8. We confirmed that MAMDC2 is a novel miR-196a target using a
dual luciferase reporter assay with the effect abolished on mutation of the binding site.
Conclusions -
These results show that miR-196a and HOXB9 are overexpressed, perhaps co-ordinately,
as HNSCC develops and exert a pro-tumourigenic phenotype in HNSCC and OPM cells.
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The prognostic significance of specific HOX gene expression patterns in ovarian cancerKelly, Z., Moller-Levet, C., McGrath, S., Butler-Manuel, S., Madhuri, T.K., Kierzek, A.M., Pandha, H.S., Morgan, Richard, Michael, A. 25 May 2016 (has links)
Yes / HOX genes are vital for all aspects of mammalian growth and differentiation, and their dysregulated expression is related to ovarian carcinogenesis. The aim of the current study was to establish the prognostic value of HOX dysregulation as well as its role in platinum resistance. The potential to target HOX proteins through the HOX/PBX interaction was also explored in the con-text of platinum resistance. HOX gene expression was determined in ovarian cancer cell lines and primary EOCs by QPCR, and compared to expression in normal ovarian epithelium and fallopian tube tissue samples. Statistical analysis included one-way ANOVA and t-tests, using statistical software R and GraphPad. The analysis identified 36 of the 39 HOX genes as being overex-pressed in high grade serous EOC compared to normal tissue. We detected a molecular HOX gene-signature that predicted poor outcome. Overexpression of HOXB4 and HOXB9 was identified in high grade serous cell lines after platinum resistance developed. Targeting the HOX/PBX dimer with the HXR9 peptide enhanced the cytotoxicity of cisplatin in platinum-resistant ovarian cancer. In conclusion, this study has shown the HOX genes are highly dysregulated in ovarian cancer with high expression of HOXA13, B6, C13, D1 and D13 being predictive of poor clinical outcome. Targeting the HOX/PBX dimer in platinum–resistant cancer represents a potentially new therapeutic option that should be further developed and tested in clinical trials. / This research was supported by GRACE, a gynaecological charity based in Surrey, UK.
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HOX transcription factors and the prostate tumor microenvironmentMorgan, Richard, Pandha, H.S. 06 December 2017 (has links)
Yes / It is now well established that the tumor microenvironment plays an essential role in the survival, growth, invasion, and spread of cancer through the regulation of angiogenesis and localized immune responses. This review examines the role of the HOX genes, which encode a family of homeodomain-containing transcription factors, in the interaction between prostate tumors and their microenvironment. Previous studies have established that HOX genes have an important function in prostate cancer cell survival in vitro and in vivo, but there is also evidence that HOX proteins regulate the expression of genes in the cancer cell that influence the tumor microenvironment, and that cells in the microenvironment likewise express HOX genes that confer a tumor-supportive function. Here we provide an overview of these studies that, taken together, indicate that the HOX genes help mediate cross talk between prostate tumors and their microenvironment.
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Targeting HOX-PBX interactions causes death in oral potentially malignant and squamous carcinoma cells but not normal oral keratinocytesPlatais, C., Radhakrishnan, R., Ebensberger, S.N., Morgan, Richard, Lambert, D.W., Hunter, K.D. 07 June 2018 (has links)
Yes / Background: High HOX gene expression has been described in many cancers, including oral squamous cell
carcinoma and the functional roles of these genes are gradually being understood. The pattern of overexpression
suggests that inhibition may be useful therapeutically. Inhibition of HOX protein binding to PBX cofactors by the
use of synthetic peptides, such as HXR9, results in apoptosis in multiple cancers.
Methods: Activity of the HOX-PBX inhibiting peptide HXR9 was tested in immortalised normal oral (NOK),
potentially-malignant (PMOL) and squamous cell carcinoma (OSCC) cells, compared to the inactive peptide
CXR9. Cytotoxicity was assessed by LDH assay. Expression of PBX1/2 and c-Fos was assessed by qPCR and
western blotting. Apoptosis was assessed by Annexin-V assay.
Results: PMOL and OSCC cells expressed PBX1/2. HOX-PBX inhibition by HXR9 caused death of PMOL and
OSCC cells, but not NOKs. HXR9 treatment resulted in apoptosis and increased expression of c-Fos in some
cells, whereas CXR9 did not. A correlation was observed between HOX expression and resistance to HXR9.
Conclusion: Inhibition of HOX-PBX interactions causes selective apoptosis of OSCC/PMOL, indicating selective
toxicity that may be useful clinically. / Intercalated Degree Scholarship from the Harry Bottom Trust; scholarship by Becas Chile, Comisión Nacional de Investigación Científica y Tecnológica de Chile (CONICYT), Grant 72160041
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