Your search keyword '"Hox gene"' showing total 4,986 results

1. Physical constraints on the positions and dimensions of the zebrafish swim bladder by surrounding bones.

Author

Satoh, Koumi, Maeno, Akiteru, Adachi, Urara, Ishizaka, Mizuki, Yamada, Kazuya, Koita, Rina, Nakazawa, Hidemichi, Oikawa, Sae, Fujii, Renka, Furudate, Hiroyuki, and Kawamura, Akinori

Abstract

Precise regulation of organ size and position is crucial for optimal organ function. Since the swim bladder is primarily responsible for buoyancy in teleosts, early development and subsequent inflation of the swim bladder should be appropriately controlled with the body growth. However, the underlying mechanism remains unclear. In this study, we show that the size and position of the swim bladder are physically constrained by the surrounding bones in zebrafish. Non‐invasive micro‐CT scanning revealed that the anterior edge of the swim bladder is largely attached to the os suspensorium, which is an ossicle extending medioventrally from the 4th centrum. Additionally, we observed that hoxc6a mutants, which lack the os suspensorium, exhibited an anterior projection of the swim bladder beyond the 4th vertebra. During the swim bladder development, we found that the counterclockwise rotation of the os suspensorium correlates with posterior regression of the swim bladder, suggesting that the os suspensorium pushes the swim bladder posteriorly into its proper position. Furthermore, our results revealed a close association between the posterior region of the swim bladder and the pleural ribs. In hoxaa cluster mutants with additional ribs, the swim bladder expanded posteriorly, accompanied by an enlarged body cavity. Taken together, our results demonstrate the importance of the surrounding bones in the robust regulation of swim bladder size and position in zebrafish. [ABSTRACT FROM AUTHOR]

Published

2024

2. CRISPR/Cas9‐mediated knockout of the abdominal‐B homeotic gene in the global pest, fall armyworm (Spodoptera frugiperda)

Author

Liu, Xiao‐Guang, Zhao, Te, Qiu, Qi‐Qi, Wang, Cong‐Ke, Li, Tian‐Liang, Liu, Xiao‐Long, Wang, Li, Wang, Qin‐Qin, and Zhou, Lin

Subjects

*HOMEOBOX genes, *FALL armyworm, *GENITALIA, *PHENOTYPES, *ANIMAL morphology

Abstract

The Homeotic complex (Hox) genes play a crucial role in determining segment identity and appendage morphology in bilaterian animals along the antero‐posterior axis. Recent studies have expanded to agricultural pests such as fall armyworm (FAW), scientifically known as Spodoptera frugiperda J. E. Smith (Lepidoptera: Noctuidae), which significantly threatens global agricultural productivity. However, the specific role of the hox gene Sfabd‐B in FAW remains unexplored. This research investigates the spatial and temporal expression patterns of Sfabd‐B in various tissues at different developmental stages using quantitative real‐time polymerase chain reaction (qRT‐PCR). Additionally, we explored the potential function of the Sfabd‐B gene located in the FAW genome using CRISPR/Cas9 technology. The larval mutant phenotypes can be classified into three subgroups as compared with wild‐type individuals, that is, an excess of pedis in the posterior abdomen, deficient pedis due to segmental fusion and deviations in the posterior abdominal segments. Importantly, significant differences in mutant phenotypes between male and female individuals were also evident during the pupal and adult phases. Notably, both the decapentaplegic (dpp) and cuticular protein 12 (cp 12) genes displayed a substantial marked decrease in expression levels in the copulatory organ of male mutants and the ovipositor of female mutants compared with the wild type. These findings highlight the importance of Sfabd‐B in genital tract patterning, providing a potential target for improving genetic control. [ABSTRACT FROM AUTHOR]

Published

2024

3. Effects of HOX family regulator-mediated modification patterns and immunity characteristics on tumor-associated cell type in endometrial cancer

Author

JiaoLin Yang, JinPeng Li, SuFen Li, YuTong Yang, HuanCheng Su, HongRui Guo, Jing Lei, YaLin Wang, KaiTing Wen, Xia Li, SanYuan Zhang, and Zhe Wang

Subjects

HOX gene, Endometrial cancer, Tumor microenvironment, scRNA-seq, Cancer-associated fibroblasts (CAFs), Medicine

Abstract

Abstract Endometrial cancer (UCEC) is one of three major malignant tumors in women. The HOX gene regulates tumor development. However, the potential roles of HOX in the expression mechanism of multiple cell types and in the development and progression of tumor microenvironment (TME) cell infiltration in UCEC remain unknown. In this study, we utilized both the The Cancer Genome Atlas (TCGA) database and International Cancer Genome Consortium (ICGC) database to analyze transcriptome data of 529 patients with UCEC based on 39 HOX genes, combing clinical information, we discovered HOX gene were a pivotal factor in the development and progression of UCEC and in the formation of TME diversity and complexity. Here, a new scoring system was developed to quantify individual HOX patterns in UCEC. Our study found that patients in the low HOX score group had abundant anti-tumor immune cell infiltration, good tumor differentiation, and better prognoses. In contrast, a high HOX score was associated with blockade of immune checkpoints, which enhances the response to immunotherapy. The Real-Time quantitative PCR (RT-qPCR) and Immunohistochemistry (IHC) exhibited a higher expression of the HOX gene in the tumor patients. We revealed that the significant upregulation of the HOX gene in the epithelial cells can activate signaling pathway associated with tumour invasion and metastasis through single-cell RNA sequencing (scRNA-seq), such as nucleotide metabolic proce and so on. Finally, a risk prognostic model established by the positive relationship between HOX scores and cancer-associated fibroblasts (CAFs) can predict the prognosis of individual patients by scRNA-seq and transcriptome data sets. In sum, HOX gene may serve as a potential biomarker for the diagnosis and prediction of UCEC and to develop more effective therapeutic strategies.

Published

2024

4. Effects of HOX family regulator-mediated modification patterns and immunity characteristics on tumor-associated cell type in endometrial cancer.

Author

Yang, JiaoLin, Li, JinPeng, Li, SuFen, Yang, YuTong, Su, HuanCheng, Guo, HongRui, Lei, Jing, Wang, YaLin, Wen, KaiTing, Li, Xia, Zhang, SanYuan, and Wang, Zhe

Subjects

HOMEOBOX genes, GENE expression, ENDOMETRIAL cancer, TREATMENT effectiveness, IMMUNE checkpoint proteins

Abstract

Endometrial cancer (UCEC) is one of three major malignant tumors in women. The HOX gene regulates tumor development. However, the potential roles of HOX in the expression mechanism of multiple cell types and in the development and progression of tumor microenvironment (TME) cell infiltration in UCEC remain unknown. In this study, we utilized both the The Cancer Genome Atlas (TCGA) database and International Cancer Genome Consortium (ICGC) database to analyze transcriptome data of 529 patients with UCEC based on 39 HOX genes, combing clinical information, we discovered HOX gene were a pivotal factor in the development and progression of UCEC and in the formation of TME diversity and complexity. Here, a new scoring system was developed to quantify individual HOX patterns in UCEC. Our study found that patients in the low HOX score group had abundant anti-tumor immune cell infiltration, good tumor differentiation, and better prognoses. In contrast, a high HOX score was associated with blockade of immune checkpoints, which enhances the response to immunotherapy. The Real-Time quantitative PCR (RT-qPCR) and Immunohistochemistry (IHC) exhibited a higher expression of the HOX gene in the tumor patients. We revealed that the significant upregulation of the HOX gene in the epithelial cells can activate signaling pathway associated with tumour invasion and metastasis through single-cell RNA sequencing (scRNA-seq), such as nucleotide metabolic proce and so on. Finally, a risk prognostic model established by the positive relationship between HOX scores and cancer-associated fibroblasts (CAFs) can predict the prognosis of individual patients by scRNA-seq and transcriptome data sets. In sum, HOX gene may serve as a potential biomarker for the diagnosis and prediction of UCEC and to develop more effective therapeutic strategies. [ABSTRACT FROM AUTHOR]

Published

2024

5. The Hox code responsible for the patterning of the anterior vertebrae in zebrafish.

Author

Akiteru Maeno, Rina Koita, Hidemichi Nakazawa, Renka Fujii, Kazuya Yamada, Sae Oikawa, Taisei Tani, Mizuki Ishizaka, Koumi Satoh, Atsuki Ishizu, Takumi Sugawara, Urara Adachi, Morimichi Kikuchi, Norimasa Iwanami, Masaru Matsuda, and Akinori Kawamura

Subjects

*SPINE, *HOMEOBOX genes, *THORACIC vertebrae, *ACTINOPTERYGII, *X-ray computed microtomography, *BRACHYDANIO, *MICE

Abstract

The vertebral column is a characteristic structure of vertebrates. Genetic studies in mice have shown that Hox-mediated patterning plays a key role in specifying discrete anatomical regions of the vertebral column. Expression pattern analyses in several vertebrate embryos have provided correlative evidence that the anterior boundaries of Hox expression coincide with distinct anatomical vertebrae. However, because functional analyses have been limited to mice, it remains unclear which Hox genes actually function in vertebral patterning in other vertebrates. In this study, various zebrafish Hox mutants were generated for loss-of-function phenotypic analysis to functionally decipher the Hox code responsible for the zebrafish anterior vertebrae between the occipital and thoracic vertebrae. We found that Hox genes in HoxB- and HoxC-related clusters participate in regulating the morphology of the zebrafish anterior vertebrae. In addition, medaka hoxc6a was found to be responsible for anterior vertebral identity, as in zebrafish. Based on phenotypic similarities with Hoxc6 knockout mice, our results suggest that the Hox patterning system, including at least Hoxc6, may have been functionally established in the vertebral patterning of the common ancestor of ray-finned and lobe-finned fishes. [ABSTRACT FROM AUTHOR]

Published

2024

6. Establishing and maintaining Hox profiles during spinal cord development.

Author

Miller, Alexander and Dasen, Jeremy S.

Subjects

*SPINAL cord, *GENETIC regulation, *CELL differentiation, *GENE families, *GENE expression

Abstract

The chromosomally-arrayed Hox gene family plays central roles in embryonic patterning and the specification of cell identities throughout the animal kingdom. In vertebrates, the relatively large number of Hox genes and pervasive expression throughout the body has hindered understanding of their biological roles during differentiation. Studies on the subtype diversification of spinal motor neurons (MNs) have provided a tractable system to explore the function of Hox genes during differentiation, and have provided an entry point to explore how neuronal fate determinants contribute to motor circuit assembly. Recent work, using both in vitro and in vivo models of MN subtype differentiation, have revealed how patterning morphogens and regulation of chromatin structure determine cell-type specific programs of gene expression. These studies have not only shed light on basic mechanisms of rostrocaudal patterning in vertebrates, but also have illuminated mechanistic principles of gene regulation that likely operate in the development and maintenance of terminal fates in other systems. [ABSTRACT FROM AUTHOR]

Published

2024

7. DNA methylation of HOX genes and its clinical implications in cancer

Author

Xin Hu, Yong Wang, Xiaoyu Zhang, Chensheng Li, Xikun Zhang, Dongxia Yang, Yuanyuan Liu, and Lianlian Li

Subjects

DNA methylation, HOX gene, DNMT, LncRNA, Therapeutic target, Pathology, RB1-214

Abstract

Homeobox (HOX) genes encode highly conserved transcription factors that play vital roles in embryonic development. DNA methylation is a pivotal regulatory epigenetic signaling mark responsible for regulating gene expression. Abnormal DNA methylation is largely associated with the aberrant expression of HOX genes, which is implicated in a broad range of human diseases, including cancer. Numerous studies have clarified the mechanisms of DNA methylation in both physiological and pathological processes. In this review, we focus on how DNA methylation regulates HOX genes and briefly discuss drug development approaches targeting these mechanisms.

Published

2023

8. Hox gene clusters in the mussel Mytilus coruscus: Implications for bivalves' evolution

Author

Chengrui Yan, Minhui Xu, Yingying Ye, Zhongqi Gu, Ji Huang, Baoying Guo, Pengzhi Qi, Jiji Li, and Xiaojun Yan

Subjects

Mytilus coruscus, Hox gene, Subcluster collinearity, Larva development, Ecology, QH540-549.5

Abstract

Hox genes encode transcription factors that are crucial regulators of various developmental processes, including patterning of the body axis and differentiation of cells, tissues and organs. They are organized in clusters in a wide range of Metazoans and expressed during embryonic development in a collinear manner from the 3′ to the 5′ end of these genomic units. Hox genes are part of the larger homeobox gene super-class, and other gene clusters beyond Hox are being increasingly discovered. This transcriptional dynamic generates spatiotemporal expression patterns throughout the developing body that are required for the establishment of fields of cell identity. Here we suggest that subcluster temporal collinearity may occur during the development of a bivalve species, as demonstrated for other Bilateran species. We performed a genome-wide analysis of the Mytilus coruscus Hox gene family, including gene structure, synteny, and expression patterns. It was shown that 11 Hox genes were evenly distributed within one chromosome in M. coruscus. Phylogenetic analysis showed that 11 Hox proteins were divided into four groups and each of them contained different conserved motifs. Besides, sequence alignment and analysis showed the conservation of 11 Hox genes of M. coruscus. Selection pressure analysis revealed the Ka/Ks ratios of Hox1, Hox4, Lox4, Post2, and Post1 were less than 1 in Bivalvia, indicating that these five Hox genes suffered significant purifying selection. Notably, Hox1, Hox4, Post2 were overlapped with the leading gene in the subcluster collinearity. This discovery suggests the potential existence of subcluster temporal collinearity in M. coruscus, which adds new insights into Hox gene organization in Bivalvia or Mollusca.

Published

2023

9. Regulation of long non-coding RNAs XIST and ROR induced by homeodomain protein TGIF2LX in colorectal cancer.

Author

Tabarestani, Fatemeh, Akbari, Abolfazl, Karizi, Shohreh, and Sotoodehnejadnematalahi, Fattah

Subjects

*LINCRNA, *HOMEOBOX proteins, *COLORECTAL cancer, *TRANSFORMING growth factors, *GENE expression

Abstract

Background: Homeodomain protein transforming growth factor beta-induced factor 2 like, X-linked (TGIF2 LX) has been demonstrated to act as a transcription factor and regulate cancer cell proliferation. Long non-coding RNAs (lncRNAs) are well known as molecular regulators of colorectal cancer (CRC). Our aim was to evaluate the clinical and biological significance of TGIF2 LX and its effect on lncRNAs regulator of reprogramming (ROR) and X-inactive specific transcript (XIST) expression in CRC cells. Materials and Methods: Thirty-six CRC tissues and 22 adjacent normal colorectal tissues were subjected to RNA extraction and analysis of TGIF2 LX gene expression by quantitative real-time polymerase chain reaction (qRT-PCR). The human SW1116 cell line was transfected with cDNA for the TGIF2 LX gene. Microscopic analysis, reverse transcriptase PCR, and western blotting were used for confirming at transcriptional and translational levels. Methyl thiazolyl tetrazolium and colony formation assays were applied for evaluating the in vitro cell viability and colony-forming ability, respectively. LncRNA expression analysis was carried out using qRT-PCR. Results: The results showed that the expression levels of TGIF2 LX were significantly downregulated in CRC tissues compared to adjacent normal tissues (P = 0.032). Furthermore, the overexpression of TGIF2 LX could reduce the CRC cell line proliferation. The gene expression analysis revealed a significantly reduced level of lncRNA ROR and lncRNA XIST in TGIF2 LX-transfected SW1116 cells compared to nontransfected cells. Conclusion: Our findings provided evidence of molecular mechanisms by which TGIF2 LX may interact with lncRNAs ROR and XSIST to regulate CRC development by acting as a tumor suppressor. Thus, this protein may potentially be a promising option for CRC gene-based therapeutic strategies. [ABSTRACT FROM AUTHOR]

Published

2022

10. Echiuran Hox genes provide new insights into the correspondence between Hox subcluster organization and collinearity pattern.

Author

Wei, Maokai, Qin, Zhenkui, Kong, Dexu, Liu, Danwen, Zheng, Qiaojun, Bai, Shumiao, Zhang, Zhifeng, and Ma, Yubin

Subjects

*GENE clusters, *GENE expression profiling, *GENE expression, *CHROMOSOMES

Abstract

In many bilaterians, Hox genes are generally clustered along the chromosomes and expressed in spatial and temporal order. In vertebrates, the expression of Hox genes follows a whole-cluster spatio-temporal collinearity (WSTC) pattern, whereas in some invertebrates the expression of Hox genes exhibits a subcluster-level spatio-temporal collinearity pattern. In bilaterians, the diversity of collinearity patterns and the cause of collinearity differences in Hox gene expression remain poorly understood. Here, we investigate genomic organization and expression pattern of Hox genes in the echiuran worm Urechis unicinctus (Annelida, Echiura). Urechis unicinctus has a split cluster with four subclusters divided by non-Hox genes: first subcluster (Hox1 and Hox2), second subcluster (Hox3), third subcluster (Hox4, Hox5, Lox5, Antp and Lox4), fourth subcluster (Lox2 and Post2). The expression of U. unicinctus Hox genes shows a subcluster-based whole-cluster spatio-temporal collinearity (S-WSTC) pattern: the anterior-most genes in each subcluster are activated in a spatially and temporally colinear manner (reminiscent of WSTC), with the subsequent genes in each subcluster then being very similar to their respective anterior-most subcluster gene. Combining genomic organization and expression profiles of Hox genes in different invertebrate lineages, we propose that the spatio-temporal collinearity of invertebrate Hox is subcluster-based. [ABSTRACT FROM AUTHOR]

Published

2022

11. The Hox Gene, abdominal A controls timely mitotic entry of neural stem cell and their growth during CNS development in Drosophila .

Author

Das P, Murthy S, Abbas E, White K, and Arya R

Abstract

The size of a cell is important for its function and physiology. Interestingly, size variation can be easily observed in clonally derived embryonic and hematopoietic stem cells. Here, we investigated the regulation of stem cell growth and its association with cell fate. We observed heterogeneous sizes of neuroblasts or neural stem cells (NSCs) in the Drosophila ventral nerve cord (VNC). Specifically, thoracic NSCs were larger than those in the abdominal region of the VNC. Our research uncovered a significant role of the Hox gene abdominal A ( abdA ) in the regulation of abdominal NSC growth. Developmental expression of AbdA retards their growth and delays mitotic entry compared to thoracic NSCs. The targeted loss of abdA enhanced their growth and caused an earlier entry into mitosis with a faster cycling rate. Furthermore, ectopic expression of abdA reduced the size of thoracic NSCs and delayed their entry into mitosis. We suggest that abdA plays an instructive role in regulating NSC size and exit from quiescence. This study demonstrates for the first time the involvement of abdA in NSC fate determination by regulating their growth, entry into mitosis and proliferation rate, and thus their potential to make appropriate number of progeny for CNS patterning., Competing Interests: Conflict of interest The author (s) declare no conflict of interest.

Published

2024

12. Sexual dimorphism in digit length ratios of the second to fourth digits (2D:4D) in Blanford\'s fringe-toed lizard Acanthodactylus blanfordi Boulenger, 1918 (Sauria: Lacertidae) in the south of Iran

Author

Nastaran Heidari

Subjects

development, hox gene, morphology, reptiles, vertebrates, Biology (General), QH301-705.5

Abstract

Finger length ratios are organized during embryonic development of fingers as they exposed to sex steroid hormones, and may show varying degrees of sexual dimorphism between males and females in different animal groups. Among all the finger length ratios calculated in a sample, the ratio between the second to fourth fingers (2D: 4D) is the most important one. In this study, the 2D:4D ratios in both sides of the body (right and left) in all limbs were investigated to determine if sexual dimorphism is present in the 2D: 4D ratios in 44 specimens studied (20 males and 24 females) of Acanthodactylus blanfordi. Other morphological traits of the two sexes were also examined (23 metric and meristic traits), as a result, sexual dimorphism was observed in five metric and meristic morphological traits. In terms of the ratio of the size of the fingers and toes, sexual dimorphism in the length of the fingers was observed only in 2D: 4D on the right side of the body in forelimbs and hindlimbs. The value of this trait was higher in males than females and this difference was statistically significant P ≤0.05).

Published

2021

13. Differing intrinsic biological properties between forebrain and spinal oligodendroglial lineage cells.

Author

Horiuchi, Makoto, Suzuki-Horiuchi, Yoko, Akiyama, Tasuku, Itoh, Aki, Pleasure, David, Carstens, Earl, and Itoh, Takayuki

Subjects

Prosencephalon, Oligodendroglia, Neurons, Cells, Cultured, Stem Cells, Animals, Rats, Demyelinating Diseases, Cell Differentiation, Gene Expression Regulation, Cell Lineage, Hox gene, differentiation, excitotoxicity, proliferation, rostrocaudal axis, Pediatric, Neurosciences, Stem Cell Research - Nonembryonic - Non-Human, Stem Cell Research, Genetics, Neurodegenerative, Regenerative Medicine, Stem Cell Research - Nonembryonic - Human, Biochemistry and Cell Biology, Neurology & Neurosurgery

Abstract

Differentiation of oligodendroglial progenitor cells (OPCs) into myelinating oligodendrocytes is known to be regulated by the microenvironment where they differentiate. However, current research has not verified whether or not oligodendroglial lineage cells (OLCs) derived from different anatomical regions of the central nervous system (CNS) respond to microenvironmental cues in the same manner. Here, we isolated pure OPCs from rat neonatal forebrain (FB) and spinal cord (SC) and compared their phenotypes in the same in vitro conditions. We found that although FB and SC OLCs responded differently to the same external factors; they were distinct in proliferation response to mitogens, oligodendrocyte phenotype after differentiation, and cytotoxic responses to α-amino-3-hydroxy-5-methyl-4-isoxazolepropionate-type glutamate receptor-mediated excitotoxicity at immature stages of differentiation in a cell-intrinsic manner. Moreover, transcriptome analysis identified genes differentially expressed between these OPC populations, including those encoding transcription factors (TFs), cell surface molecules, and signaling molecules. Particularly, FB and SC OPCs retained the expression of FB- or SC-specific TFs, such as Foxg1 and Hoxc8, respectively, even after serial passaging in vitro. Given the essential role of these TFs in the regional identities of CNS cells along the rostrocaudal axis, our results suggest that CNS region-specific gene regulation by these TFs may cause cell-intrinsic differences in cellular responses between FB and SC OLCs to extracellular molecules. Further understanding of the regional differences among OPC populations will help to improve treatments for demyelination in different CNS regions and to facilitate the development of stem cell-derived OPCs for cell transplantation therapies for demyelination. Cover Image for this issue: doi. 10.1111/jnc.13809.

Published

2017

14. The expression of Drosophila melanogaster Hox gene Ultrabithorax is not overtly regulated by the intronic long noncoding RNA lncRNA:PS4 in a wild-type genetic background.

Author

Hermann, Anita, Kosman, Dave, McGinnis, William, and Tour, Ella

Subjects

*LINCRNA, *HOMEOBOX genes, *DROSOPHILA melanogaster, *RNA regulation, *PROTEIN expression, *GENETIC regulation

Abstract

Long noncoding RNAs (lncRNAs) have been implicated in a variety of processes in development, differentiation, and disease. In Drosophila melanogaster, the bithorax Hox cluster contains three Hox genes [Ultrabithorax (Ubx), abdominal-A, and Abdominal-B], along with a number of lncRNAs, most with unknown functions. Here, we investigated the function of a lncRNA, lncRNA:PS4 that originates in the second intron of Ubx and is transcribed in the antisense orientation to Ubx. The expression pattern of lncRNA:PS4 is complementary to Ubx in the thoracic primordia, and the lncRNA:PS4 coding region overlaps the location of the large insertion that causes the dominant homeotic mutation Contrabithorax-1 (UbxCbx-1), which partially transforms Drosophila wings into halteres via ectopic activation of Ubx. This led us to investigate the potential role of this lncRNA in regulation of Ubx expression. The UbxCbx-1 mutation dramatically changes the pattern of lncRNA:PS4, eliminating the expression of most lncRNA:PS4 sequences from parasegment 4 (where Ubx protein is normally absent) and ectopically activating lncRNA:PS4 at high levels in the abdomen (where Ubx is normally expressed). These changes, however, did not lead to changes in the Ubx embryonic transcription pattern. Targeted deletion of the two promoters of lncRNA:PS4 did not result in the change of Ubx expression in the embryos. In the genetic background of a UbxCbx-1 mutation, the lncRNA:PS4 mutation does slightly enhance the ectopic activation of Ubx protein expression in wing discs and also slightly enhances the wing phenotype seen in UbxCbx-1 heterozygotes. [ABSTRACT FROM AUTHOR]

Published

2022

15. Sexual dimorphism in digit length ratios of the second to fourth digits (2D:4D) in two species of green toads (Pelobates syriacus Boettger, 1889 and Bufo viridis (Laurenti, 1768))

Author

Iman Alinezhadi, Nastaran Heidari, and Hossein Javanbakht

Subjects

amphibia, development, hox gene, morphology, vertebrates, Biology (General), QH301-705.5

Abstract

Sexual dimorphism in the ratio of digits length is a morphological feature resulted from the interaction between sex hormones and prenatal Hox genes, the latter is known to control the development of both limbs and genitals. The status of this trend and ratios have been investigated in various animal groups, including humans, other mammals, birds, reptiles, and amphibians. In this study, the body length and sexual dimorphism in the second-to-fourth, second-to-third and third-to-fourth digit lengths ratios (i.e., 2D:3D, 2D:4D, 3D:4D) of left fore and hind limbs were investigated in 54 specimens of toads collected from the northern Iran, including Bufo viridis (16 males and 19 females) and Pelobates syriacus (10 males and 9 females). In addition, the body length of the studied specimens were recorded. The results showed that the average body length (SVL) of female individuals of Pelobates syriacus was higher than those in males, which was found to be statistically significant (P≤0.05). Meanwhile, the average body length (SVL) of female individuals of Bufo viridis was found to be higher than those in males, however, the difference was not statistically significant. No sexual dimorphism was detected in the second-to-fourth, second-to-third and third-to-fourth digit lengths ratios of left fore and hind limbs between the male and female undividuals of Bufo viridis. However, the second-to-fourth digit ratio (2D:4D) in Pelobates syriacus species were found to be significantly different (P=0.040) between the male and female individuals, as the ratio was higher in males than females. Therefore, it could be concluded that the sexual dimorphism in 2D:4D of Pelobates syriacus species is consistent with those in most amphibians and diapsids.

Published

2020

16. Hox genes reveal variations in the genomic DNA of allotetraploid hybrids derived from Carassius auratus red var. (female) × Cyprinus carpio L. (male)

Author

Rurong Zhao, Yude Wang, Li Zou, Yaxin Luo, Huifang Tan, Jiajun Yao, Minghe Zhang, and Shaojun Liu

Subjects

PCR survey, Hox gene, Allotetraploid hybrid, Evolution, Genetics, QH426-470

Abstract

Abstract Background Hox transcription factors are master regulators of animal development. Although highly conserved, they can contribute to the formation of novel biological characteristics when modified, such as during the generation of hybrid species, thus potentially serving as species-specific molecular markers. Here, we systematically studied the evolution of genomic sequences of Hox loci in an artificial allotetraploid lineage (4nAT, 4n = 200) derived from a red crucian carp (♀, RCC, 2n = 100) × common carp (♂, CC, 2n = 100) cross and its parents (RCC and CC). Results PCR amplification yielded 23 distinct Hox gene fragments from 160 clones in 4nAT, 22 fragments from 90 clones in RCC, and 19 fragments from 90 clones in CC. Sequence alignment of the HoxA3a and HoxC10a genes indicated both the inheritance and loss of paternal genomic DNA in 4nAT. The HoxA5a gene from 4nAT consisted of two subtypes from RCC and two subtypes from CC, indicating that homologous recombination occurred in the 4nAT hybrid genome. Moreover, 4nAT carried genomic pseudogenization in the HoxA10b and HoxC13a loci. Interestingly, a new type of HoxC9a gene was found in 4nAT as a hybrid sequence of CC and RCC by recombination in the intronic region. Conclusion The results revealed the influence of Hox genes during polyploidization in hybrid fish. The data provided insight into the evolution of vertebrate genomes and might be benefit for artificial breeding programs.

Published

2020

17. PRC1 sustains the integrity of neural fate in the absence of PRC2 function

Author

Ayana Sawai, Sarah Pfennig, Milica Bulajić, Alexander Miller, Alireza Khodadadi-Jamayran, Esteban O Mazzoni, and Jeremy S Dasen

Subjects

neural development, motor neuron, hox gene, polycomb protein, Medicine, Science, Biology (General), QH301-705.5

Abstract

Polycomb repressive complexes (PRCs) 1 and 2 maintain stable cellular memories of early fate decisions by establishing heritable patterns of gene repression. PRCs repress transcription through histone modifications and chromatin compaction, but their roles in neuronal subtype diversification are poorly defined. We found that PRC1 is essential for the specification of segmentally restricted spinal motor neuron (MN) subtypes, while PRC2 activity is dispensable to maintain MN positional identities during terminal differentiation. Mutation of the core PRC1 component Ring1 in mice leads to increased chromatin accessibility and ectopic expression of a broad variety of fates determinants, including Hox transcription factors, while neuronal class-specific features are maintained. Loss of MN subtype identities in Ring1 mutants is due to the suppression of Hox-dependent specification programs by derepressed Hox13 paralogs (Hoxa13, Hoxb13, Hoxc13, Hoxd13). These results indicate that PRC1 can function in the absence of de novo PRC2-dependent histone methylation to maintain chromatin topology and postmitotic neuronal fate.

Published

2022

18. The Hox code responsible for the patterning of the anterior vertebrae in zebrafish.

Author

Maeno A, Koita R, Nakazawa H, Fujii R, Yamada K, Oikawa S, Tani T, Ishizaka M, Satoh K, Ishizu A, Sugawara T, Adachi U, Kikuchi M, Iwanami N, Matsuda M, and Kawamura A

Subjects

Animals, Genes, Homeobox genetics, Oryzias genetics, Oryzias embryology, Mice, Zebrafish genetics, Zebrafish embryology, Spine embryology, Body Patterning genetics, Homeodomain Proteins genetics, Homeodomain Proteins metabolism, Gene Expression Regulation, Developmental, Zebrafish Proteins genetics, Zebrafish Proteins metabolism

Abstract

The vertebral column is a characteristic structure of vertebrates. Genetic studies in mice have shown that Hox-mediated patterning plays a key role in specifying discrete anatomical regions of the vertebral column. Expression pattern analyses in several vertebrate embryos have provided correlative evidence that the anterior boundaries of Hox expression coincide with distinct anatomical vertebrae. However, because functional analyses have been limited to mice, it remains unclear which Hox genes actually function in vertebral patterning in other vertebrates. In this study, various zebrafish Hox mutants were generated for loss-of-function phenotypic analysis to functionally decipher the Hox code responsible for the zebrafish anterior vertebrae between the occipital and thoracic vertebrae. We found that Hox genes in HoxB- and HoxC-related clusters participate in regulating the morphology of the zebrafish anterior vertebrae. In addition, medaka hoxc6a was found to be responsible for anterior vertebral identity, as in zebrafish. Based on phenotypic similarities with Hoxc6 knockout mice, our results suggest that the Hox patterning system, including at least Hoxc6, may have been functionally established in the vertebral patterning of the common ancestor of ray-finned and lobe-finned fishes., Competing Interests: Competing interests The authors declare no competing or financial interests., (© 2024. Published by The Company of Biologists Ltd.)

Published

2024

19. تأثیر بیان بیش از حد پروتئین همودومین TGIF2LX بر بیان miRNA های انکوژنیک در رده سلولی سرطان کولورکتال SW1116.

Author

فاطمه عمرانی طبر, ابوالفضل اکبری, شهره زارع کاریزی, and فتاح ستوده نژادن

Subjects

*HOMEOBOX proteins, *NON-coding RNA, *CANCER cell proliferation, *COLORECTAL cancer, *CELL growth

Abstract

Introduction: Transforming growth factor-beta-induced factor X-linked (TGIF2LX) as a homeodomain protein and TGF-β corepressor, could regulate proliferation of some cancer cells including colorectal cancer by some signaling pathways. Small non-coding RNAs (microRNA; miRNA) are known as molecular regulators of colorectal cancer that are involved in the processes of cell growth, proliferation, differentiation and apoptosis. The aim of this study was to evaluate the biological significance of TGIF2LX protein and its effect on the expression of oncogenic miRNAs miR-34a, miR-20a and miR-21 in colorectal cancer cells SW1116. Methods: Human SW1116 cell line and cell line transfected with cDNA encoding TGIF2LX gene were cultured in RPMI 1640 medium under appropriate conditions. MTT assay was used to assess cell viability in vitro. After RNA extraction from all cell groups and cDNA synthesis, miRNA expression analysis was performed using qReal-time PCR technique. Results: The results showed that the increased expression of TGIF2LX could reduce the proliferation of SW1116 cell line. Gene expression analysis showed that increased expression of TGIF2LX could significantly reduce the expression level of miR-21 (P<0.038). However, the expression levels of miR-34a and miR-20a in SW1116 cells transfected with TGIF2LX did not show a significant change compared to non-transfected cells (P>0.05). Conclusion: Our findings provide evidence of molecular mechanisms that the homeodomain protein TGIF2LX can act as a tumor suppressor in colorectal cancer cells by reducing miR-21 expression. Therefore, this protein can potentially be considered as a promising option for gene-based therapeutic strategies in this cancer. [ABSTRACT FROM AUTHOR]

Published

2021

20. The neuroblast timer gene nubbin exhibits functional redundancy with gap genes to regulate segment identity in Tribolium.

Author

Tidswell, Olivia R. A., Benton, Matthew A., and Akam, Michael

Subjects

*HOMEOBOX genes, *TRIBOLIUM, *NEURAL stem cells, *GENES, *GENE regulatory networks

Abstract

The neuroblast timer genes hunchback, Krü ppel, nubbin and castor are expressed in temporal sequence in neural stem cells, and in corresponding spatial sequence along the Drosophila blastoderm. As canonical gap genes, hunchback and Krü ppel play a crucial role in insect segmentation, but the roles of nubbin and castor in this process remain ambiguous. We have investigated the expression and functions of nubbin and castor during segmentation in the beetle Tribolium. We show that Tc-hunchback, Tc-Krü ppel, Tc-nubbin and Tc-castor are expressed sequentially in the segment addition zone, and that Tc-nubbin regulates segment identity redundantly with two previously described gap/gap-like genes, Tc-giant and Tc-knirps. Simultaneous knockdown of Tc-nubbin, Tc-giant and Tc-knirps results in the formation of ectopic legs on abdominal segments. This homeotic transformation is caused by loss of abdominal Hox gene expression, likely due to expanded Tc-Krüppel expression. Our findings support the theory that the neuroblast timer series was co-opted for use in insect segment patterning, and contribute to our growing understanding of the evolution and function of the gap gene network outside of Drosophila. [ABSTRACT FROM AUTHOR]

Published

2021

21. Rapid genomic DNA variation in newly hybridized carp lineages derived from Cyprinus carpio (♀) × Megalobrama amblycephala (♂)

Author

Kaikun Luo, Shi Wang, Yeqing Fu, Pei Zhou, Xuexue Huang, Qianhong Gu, Wuhui Li, Yude Wang, Fangzhou Hu, and Shaojun Liu

Subjects

Distant hybridization, Hox gene, Lineage, Recombinant cluster, Pseudogene, Genetics, QH426-470

Abstract

Abstract Background Distant hybridization can generate changes in phenotypes and genotypes that lead to the formation of new hybrid lineages with genetic variation. In this study, the establishment of two bisexual fertile carp lineages, including the improved diploid common carp (IDC) lineage and the improved diploid scattered mirror carp (IDMC) lineage, from the interspecific hybridization of common carp (Cyprinus carpio, 2n = 100) (♀) × blunt snout bream (Megalobrama amblycephala, 2n = 48) (♂), provided a good platform to investigate the genetic relationship between the parents and their hybrid progenies. Result In this study, we investigated the genetic variation of 12 Hox genes in the two types of improved carp lineages derived from common carp (♀) × blunt snout bream (♂). Hox gene clusters were abundant in the first generation of IDC, but most were not stably inherited in the second generation. In contrast, we did not find obvious mutations in Hox genes in the first generation of IDMC, and almost all the Hox gene clusters were stably inherited from the first generation to the second generation of IDMC. Interestingly, we found obvious recombinant clusters of Hox genes in both improved carp lineages, and partially recombinant clusters of Hox genes were stably inherited from the first generation to the second generation in both types of improved carp lineages. On the other hand, some Hox genes were gradually becoming pseudogenes, and some genes were completely pseudogenised in IDC or IDMC. Conclusions Our results provided important evidence that distant hybridization produces rapid genomic DNA changes that may or may not be stably inherited, providing novel insights into the function of hybridization in the establishment of improved lineages used as new fish resources for aquaculture.

Published

2019

22. Chromatin accessibility plays a key role in selective targeting of Hox proteins

Author

Damiano Porcelli, Bettina Fischer, Steven Russell, and Robert White

Subjects

Hox gene, Hox protein, Chromatin, Chromatin accessibility, Hox cofactors, Transcription factor, Biology (General), QH301-705.5, Genetics, QH426-470

Abstract

Abstract Background Hox transcription factors specify segmental diversity along the anterior-posterior body axis in metazoans. While the different Hox family members show clear functional specificity in vivo, they all show similar binding specificity in vitro and a satisfactory understanding of in vivo Hox target selectivity is still lacking. Results Using transient transfection in Kc167 cells, we systematically analyze the binding of all eight Drosophila Hox proteins. We find that Hox proteins show considerable binding selectivity in vivo even in the absence of canonical Hox cofactors Extradenticle and Homothorax. Hox binding selectivity is strongly associated with chromatin accessibility, being highest in less accessible chromatin. Individual Hox proteins exhibit different propensities to bind less accessible chromatin, and high binding selectivity is associated with high-affinity binding regions, leading to a model where Hox proteins derive binding selectivity through affinity-based competition with nucleosomes. Extradenticle/Homothorax cofactors generally facilitate Hox binding, promoting binding to regions in less accessible chromatin but with little effect on the overall selectivity of Hox targeting. These cofactors collaborate with Hox proteins in opening chromatin, in contrast to the pioneer factor, Glial cells missing, which facilitates Hox binding by independently generating accessible chromatin regions. Conclusions These studies indicate that chromatin accessibility plays a key role in Hox selectivity. We propose that relative chromatin accessibility provides a basis for subtle differences in binding specificity and affinity to generate significantly different sets of in vivo genomic targets for different Hox proteins.

Published

2019

23. Study of Sexual Dimorphism in Second-to-fourth Digit Length Ratio (2D: 4D) in the Green-Bellied Lizard (Darevskia cholorogaster) from Iran

Author

Hossein Javanbakht and Esmail Noghanchi

Subjects

lizard, digit ratio, limb, hox gene, dimorphism, Genetics, QH426-470

Abstract

Sexual dimorphism in digit ration is related to genetic differences between species in response to prenatal exposure to hormones. In this study, the development of tetrapod digits, preliminary the ratio between the length of digit II and IV (2D: 4D) was investigated in 34 samples of Darevskia cholorogaster in the North of Iran. The results showed no significant differences between sexes in any digit length. The digit ratio 2D: 4D was different between males and females in which the females had greater 2D: 4D in forelimb than the males. However, this difference was not significant. Sexual dimorphism in 2D: 4D, 3D: 4D and 2D: 3D ratios for the male and female showed no correlation within sex. Our results supported a genetic pattern seen in humans and most mammals, inconsistent with basic genetic pattern in reptiles. We concluded that the digits ratios observed in D. cholorogaster could be referred to microhabitat use by this species on different surfaces, besides basic genetic pattern and other ecological effects as foraging and mating.

Published

2019

24. Games of Chance: Explorations into Our Animal Selves

Author

Ramakrishnan, Siddharth, Vesna, Victoria, Nakatsu, Ryohei, editor, Rauterberg, Matthias, editor, and Ciancarini, Paolo, editor

Published

2017

25. Induction of HOX Genes by Hepatitis C Virus Infection via Impairment of Histone H2A Monoubiquitination.

Author

Hirotake Kasai, Kazuki Mochizuki, Tomohisa Tanaka, Atsuya Yamashita, Yoshiharu Matsuura, and Kohji Moriishi

Subjects

*HOMEOBOX genes, *HEPATITIS C virus, *VIRUS diseases, *VIRAL proteins, *GENES, *UBIQUITINATION

Abstract

Hepatitis C virus (HCV) infection causes liver pathologies, including hepatocellular carcinoma (HCC). Homeobox (HOX) gene products regulate embryonic development and are associated with tumorigenesis, although the regulation of HOX genes by HCV infection has not been clarified in detail. We examined the effect of HCV infection on HOX gene expression. In this study, HCV infection induced more than half of the HOX genes and reduced the level of histone H2A monoubiquitination on lysine 119 (K119) (H2Aub), which represses HOX gene promoter activity. HCV infection also promoted proteasome-dependent degradation of RNF2, which is an E3 ligase mediating H2A monoubiquitination as a component of polycomb repressive complex 1. Since full-genomic replicon cells but not subgenomic replicon cells exhibited reduced RNF2 and H2Aub levels and induction of HOX genes, we focused on the core protein. Expression of the core protein reduced the amounts of RNF2 and H2Aub and induced HOX genes. Treatment with LY-411575, which can reduce HCV core protein expression via signal peptide peptidase (SPP) inhibition without affecting other viral proteins, dose-dependently restored the amounts of RNF2 and H2Aub in HCV-infected cells and impaired the induction of HOX genes and production of viral particles but not viral replication. The chromatin immunoprecipitation assay results also indicated infection- and proteasome-dependent reductions in H2Aub located in HOX gene promoters. These results suggest that HCV infection or core protein induces HOX genes by impairing histone H2A monoubiquitination via a reduction in the RNF2 level. [ABSTRACT FROM AUTHOR]

Published

2021

26. Hox genes are essential for the development of eyespots in Bicyclus anynana butterflies.

Author

Matsuoka, Yuji and Monteiro, Antónia

Subjects

*ARM physiology, *ANIMAL experimentation, *GENES, *INSECTS

Abstract

The eyespot patterns found on the wings of nymphalid butterflies are novel traits that originated first in hindwings and subsequently in forewings, suggesting that eyespot development might be dependent on Hox genes. Hindwings differ from forewings in the expression of Ultrabithorax (Ubx), but the function of this Hox gene in eyespot development as well as that of another Hox gene Antennapedia (Antp), expressed specifically in eyespots centers on both wings, are still unclear. We used CRISPR-Cas9 to target both genes in Bicyclus anynana butterflies. We show that Antp is essential for eyespot development on the forewings and for the differentiation of white centers and larger eyespots on hindwings, whereas Ubx is essential not only for the development of at least some hindwing eyespots but also for repressing the size of other eyespots. Additionally, Antp is essential for the development of silver scales in male wings. In summary, Antp and Ubx, in addition to their conserved roles in modifying serially homologous segments along the anterior-posterior axis of insects, have acquired a novel role in promoting the development of a new set of serial homologs, the eyespot patterns, in both forewings (Antp) and hindwings (Antp and Ubx) of B. anynana butterflies. We propose that the peculiar pattern of eyespot origins on hindwings first, followed by forewings, could be due to an initial co-option of Ubx into eyespot development followed by a later, partially redundant, co-option of Antp into the same network. [ABSTRACT FROM AUTHOR]

Published

2021

27. The expression and regulation of HOX genes and membrane proteins among different cytogenetic groups of acute myeloid leukemia

Author

Huili Wang, Sheng‐Yan Lin, Fei‐Fei Hu, An‐Yuan Guo, and Hui Hu

Subjects

acute myeloid leukemia, cytogenetics aberration, gene co‐regulatory network, HOX gene, membrane protein, Genetics, QH426-470

Abstract

Abstract Background The cytogenetic aberrations were considered as markers for diagnosis and prognosis in acute myeloid leukemia (AML), while the expression and regulation under different cytogenetic groups remain to be fully elucidated. Methods In this paper, for favorable, poor, and cytogenetically normal groups of AML patients, we performed comprehensive bioinformatics analyses including identifying differentially expressed genes (DEGs) and microRNAs (miRNAs) among them, functional enrichment and regulatory networks. Results We found that DEGs were enriched in membrane‐related processes. Eleven genes and two miRNAs were significantly differentially expressed among these three AML groups. In survival analysis, membrane‐related genes and several miRNAs were significant on prognostic outcome. Notably, six HOXA and three HOXB genes were significantly in low expression and high methylation in AML with favorable cytogenetics. Meanwhile, the miRNA‐HOX gene co‐regulatory networks revealed that HOXA5 was a hub node and regulated an AML oncogene SPARC. Conclusion Our work may provide novel insights to the molecular characteristics and classification between AML with different cytogenetics.

Published

2020

28. Intrinsic control of neuronal diversity and synaptic specificity in a proprioceptive circuit

Author

Maggie M Shin, Catarina Catela, and Jeremy Dasen

Subjects

spinal cord, motor neuron, proprioception, sensory neuron, hox gene, neural circuit, Medicine, Science, Biology (General), QH301-705.5

Abstract

Relay of muscle-derived sensory information to the CNS is essential for the execution of motor behavior, but how proprioceptive sensory neurons (pSNs) establish functionally appropriate connections is poorly understood. A prevailing model of sensory-motor circuit assembly is that peripheral, target-derived, cues instruct pSN identities and patterns of intraspinal connectivity. To date no known intrinsic determinants of muscle-specific pSN fates have been described in vertebrates. We show that expression of Hox transcription factors defines pSN subtypes, and these profiles are established independently of limb muscle. The Hoxc8 gene is expressed by pSNs and motor neurons (MNs) targeting distal forelimb muscles, and sensory-specific depletion of Hoxc8 in mice disrupts sensory-motor synaptic matching, without affecting pSN survival or muscle targeting. These results indicate that the diversity and central specificity of pSNs and MNs are regulated by a common set of determinants, thus linking early rostrocaudal patterning to the assembly of limb control circuits.

Published

2020

29. Red flour beetle (Tribolium castaneum): From population genetics to functional genomics

Author

Harshit Kumar, Manjit Panigrahi, Supriya Chhotaray, V. Bhanuprakash, Rahul Shandilya, Arvind Sonwane, and Bharat Bhushan

Subjects

functional genomics, hox gene, insertional mutagenesis, RNAi, Tribolium, Animal culture, SF1-1100, Veterinary medicine, SF600-1100

Abstract

Tribolium castaneum is a small and low maintenance beetle that has emerged as a most suitable insect model for studying developmental biology and functional genetic analysis. Diverse population genetic studies have been conducted using Tribolium as the principal model to establish basic facts and principles of inbreeding experiments and response to the selection and other quantitative genetics fundamentals. The advanced molecular genetic studies presently focused on the use of Tribolium as a typical invertebrate model for higher diploid eukaryotes. After a whole genome sequencing of Tribolium, many areas of functional genomics were unraveled, which enabled the use of it in many technical approaches of genomics. The present text reviews the use of Tribolium in techniques such as RNAi, transgenic studies, immune priming, immunohistochemistry, in situ hybridization, gene sequencing for characterization of microRNAs, and gene editing using engineered endonuclease. In contrast to Drosophila, the T. castaneum holds a robust systemic RNAi response, which makes it an excellent model for comparative functional genetic studies.

Published

2018

30. The expression and regulation of HOX genes and membrane proteins among different cytogenetic groups of acute myeloid leukemia.

Author

Wang, Huili, Lin, Sheng‐Yan, Hu, Fei‐Fei, Guo, An‐Yuan, and Hu, Hui

Subjects

*GENETIC regulation, *ACUTE myeloid leukemia, *MEMBRANE proteins, *CYTOGENETICS, *P16 gene, *HOMEOBOX genes, *GENE regulatory networks, *MICRORNA

Abstract

Background: The cytogenetic aberrations were considered as markers for diagnosis and prognosis in acute myeloid leukemia (AML), while the expression and regulation under different cytogenetic groups remain to be fully elucidated. Methods: In this paper, for favorable, poor, and cytogenetically normal groups of AML patients, we performed comprehensive bioinformatics analyses including identifying differentially expressed genes (DEGs) and microRNAs (miRNAs) among them, functional enrichment and regulatory networks. Results: We found that DEGs were enriched in membrane‐related processes. Eleven genes and two miRNAs were significantly differentially expressed among these three AML groups. In survival analysis, membrane‐related genes and several miRNAs were significant on prognostic outcome. Notably, six HOXA and three HOXB genes were significantly in low expression and high methylation in AML with favorable cytogenetics. Meanwhile, the miRNA‐HOX gene co‐regulatory networks revealed that HOXA5 was a hub node and regulated an AML oncogene SPARC. Conclusion: Our work may provide novel insights to the molecular characteristics and classification between AML with different cytogenetics. [ABSTRACT FROM AUTHOR]

Published

2020

31. Variability in β-catenin pulse dynamics in a stochastic cell fate decision in C. elegans.

Author

Kroll, Jason R., Tsiaxiras, Jasonas, and van Zon, Jeroen S.

Subjects

*CAENORHABDITIS elegans, *HOMEOBOX genes, *CELL fusion, *WNT signal transduction, *WNT genes

Abstract

During development, cell fate decisions are often highly stochastic, but with the frequency of the different possible fates tightly controlled. To understand how signaling networks control the cell fate frequency of such random decisions, we studied the stochastic decision of the Caenorhabditis elegans P3.p cell to either fuse to the hypodermis or assume vulva precursor cell fate. Using time-lapse microscopy to measure the single-cell dynamics of two key inhibitors of cell fusion, the Hox gene LIN-39 and Wnt signaling through the β-catenin BAR-1, we uncovered significant variability in the dynamics of LIN-39 and BAR-1 levels. Most strikingly, we observed that BAR-1 accumulated in a single, 1–4 ​h pulse at the time of the P3.p cell fate decision, with strong variability both in pulse slope and time of pulse onset. We found that the time of BAR-1 pulse onset was delayed relative to the time of cell fusion in mutants with low cell fusion frequency, linking BAR-1 pulse timing to cell fate outcome. Overall, a model emerged where animal-to-animal variability in LIN-39 levels and BAR-1 pulse dynamics biases cell fate by modulating their absolute level at the time cell fusion is induced. Our results highlight that timing of cell signaling dynamics, rather than its average level or amplitude, could play an instructive role in determining cell fate. Image 1 • The fate of the C. elegans P3.p cell is stochastic. • β-catenin (BAR-1) accumulated in P3.p at the time of the cell fate decision. • There is variability in dynamics of Hox and β-catenin levels during the decision. • BAR-1 accumulated with variable pulse slope and time of pulse onset. • Pulse dynamics bias cell fate at the time of the cell fate decision. [ABSTRACT FROM AUTHOR]

Published

2020

32. Hox genes reveal variations in the genomic DNA of allotetraploid hybrids derived from Carassius auratus red var. (female) × Cyprinus carpio L. (male).

Author

Zhao, Rurong, Wang, Yude, Zou, Li, Luo, Yaxin, Tan, Huifang, Yao, Jiajun, Zhang, Minghe, and Liu, Shaojun

Subjects

*HOMEOBOX genes, *CARP, *GOLDFISH, *DNA, *CRUCIAN carp, *ANIMAL development

Abstract

Background: Hox transcription factors are master regulators of animal development. Although highly conserved, they can contribute to the formation of novel biological characteristics when modified, such as during the generation of hybrid species, thus potentially serving as species-specific molecular markers. Here, we systematically studied the evolution of genomic sequences of Hox loci in an artificial allotetraploid lineage (4nAT, 4n = 200) derived from a red crucian carp (♀, RCC, 2n = 100) × common carp (♂, CC, 2n = 100) cross and its parents (RCC and CC). Results: PCR amplification yielded 23 distinct Hox gene fragments from 160 clones in 4nAT, 22 fragments from 90 clones in RCC, and 19 fragments from 90 clones in CC. Sequence alignment of the HoxA3a and HoxC10a genes indicated both the inheritance and loss of paternal genomic DNA in 4nAT. The HoxA5a gene from 4nAT consisted of two subtypes from RCC and two subtypes from CC, indicating that homologous recombination occurred in the 4nAT hybrid genome. Moreover, 4nAT carried genomic pseudogenization in the HoxA10b and HoxC13a loci. Interestingly, a new type of HoxC9a gene was found in 4nAT as a hybrid sequence of CC and RCC by recombination in the intronic region. Conclusion: The results revealed the influence of Hox genes during polyploidization in hybrid fish. The data provided insight into the evolution of vertebrate genomes and might be benefit for artificial breeding programs. [ABSTRACT FROM AUTHOR]

Published

2020

33. Candidate gene screen for potential interaction partners and regulatory targets of the Hox gene labial in the spider Parasteatoda tepidariorum.

Author

Schomburg, Christoph, Turetzek, Natascha, and Prpic, Nikola-Michael

Subjects

*HOMEOBOX genes, *GENE targeting, *SPIDERS, *DROSOPHILA melanogaster, *GENES

Abstract

The Hox gene labial (lab) governs the formation of the tritocerebral head segment in insects and spiders. However, the morphology that results from lab action is very different in the two groups. In insects, the tritocerebral segment (intercalary segment) is reduced and lacks appendages, whereas in spiders the corresponding segment (pedipalpal segment) is a proper segment including a pair of appendages (pedipalps). It is likely that this difference between lab action in insects and spiders is mediated by regulatory targets or interacting partners of lab. However, only a few such genes are known in insects and none in spiders. We have conducted a candidate gene screen in the spider Parasteatoda tepidariorum using as candidates Drosophila melanogaster genes known to (potentially) interact with lab or to be expressed in the intercalary segment. We have studied 75 P. tepidariorum genes (including previously published and duplicated genes). Only 3 of these (proboscipedia-A (pb-A) and two paralogs of extradenticle (exd)) showed differential expression between leg and pedipalp. The low success rate points to a weakness of the candidate gene approach when it is applied to lineage specific organs. The spider pedipalp has no counterpart in insects, and therefore relying on insect data apparently cannot identify larger numbers of factors implicated in its specification and formation. We argue that in these cases a de novo approach to gene discovery might be superior to the candidate gene approach. [ABSTRACT FROM AUTHOR]

Published

2020

34. Mutually exclusive antiproliferative effect of cell line‐specific HOX inhibition in epithelial ovarian cancer cell lines: SKOV‐3 vs RMUG‐S.

Author

Kim, Miseon, Suh, Dong Hoon, Choi, Jin Young, Lee, Seul, Bae, Jae Ryul, Kim, Kidong, No, Jae Hong, and Kim, Yong Beom

Subjects

OVARIAN epithelial cancer, CARCINOMA, HOMEOBOX genes, CELL lines, CANCER cells

Abstract

We aimed to discover cell line‐specific overexpressed HOX genes responsible for chemoresistance and to identify the mechanisms behind HOX‐induced cell line‐specific chemoresistance in EOC. Ten HOX genes and eight EOC cell lines were tested for any cell line‐specific overexpression that presents a mutually exclusive pattern. Cell viability was evaluated after treatment with cisplatin and/or siRNA for cell line‐specific overexpressed HOX genes. Immunohistochemical (IHC) staining for HOXB9 was performed in 84 human EOC tissues. HOXA10 and HOXB9 were identified as cell line‐specific overexpressed HOX genes for SKOV‐3 and RMUG‐S, respectively. Inhibiting the expression of cell line‐specific HOX genes, but not of other HOX genes, significantly decreased cell viability. In SKOV‐3 cells, cell viability decreased to 46.5% after initial 10 µM cisplatin treatment; however, there was no further decrease upon additional treatment with HOXA10 siRNA. In contrast, cell viability did not significantly decrease upon cisplatin treatment in RMUG‐S cells, but decreased to 65.5% after additional treatment with HOXB9 siRNA. In both cell lines, inhibiting cell line‐specific HOX expression enhanced apoptosis but suppressed the expression of epithelial‐mesenchymal transition (EMT) markers such as vimentin, MMP9, and Oct4. IHC analysis showed that platinum‐resistant cancer tissues more frequently had high HOXB9 expression than platinum‐sensitive cancer tissues. HOXB9, which is overexpressed in RMUG‐S but not in SKOV‐3 cells, appeared to be associated with cell line‐specific platinum resistance in RMUG‐S. Inhibiting HOXB9 overexpression in RMUG‐S cells may effectively eliminate platinum‐resistant ovarian cancer cells by facilitating apoptosis and inhibiting EMT. [ABSTRACT FROM AUTHOR]

Published

2020

35. DNA methylation of HOX genes and its clinical implications in cancer.

Author

Hu, Xin, Wang, Yong, Zhang, Xiaoyu, Li, Chensheng, Zhang, Xikun, Yang, Dongxia, Liu, Yuanyuan, and Li, Lianlian

Subjects

*DNA methylation, *HOMEOBOX genes, *HISTONE methylation, *GENE expression, *EMBRYOLOGY, *DRUG development

Abstract

Homeobox (HOX) genes encode highly conserved transcription factors that play vital roles in embryonic development. DNA methylation is a pivotal regulatory epigenetic signaling mark responsible for regulating gene expression. Abnormal DNA methylation is largely associated with the aberrant expression of HOX genes, which is implicated in a broad range of human diseases, including cancer. Numerous studies have clarified the mechanisms of DNA methylation in both physiological and pathological processes. In this review, we focus on how DNA methylation regulates HOX genes and briefly discuss drug development approaches targeting these mechanisms. • DNA methylation is an important mechanism regulating the expression of HOX genes. • Histone methylation and lncRNAs are involved in DNA methylation of HOX genes. • DNA methylation level of HOX genes could be considered a biomarker for diagnostics. [ABSTRACT FROM AUTHOR]

Published

2023

36. Expression patterns of Hox10 paralogous genes during lumbar spinal cord development

Author

Choe, Andrea, Phun, Huy Q, Tieu, David D, Hu, Yan Hong, and Carpenter, Ellen M

Subjects

Hox gene, spinal cord development, motor neuron, dorsal horn

Abstract

We have examined the expression of three paralogous Hox genes from E11.5 through E15.5 in the mouse spinal cord. These ages coincide with major phases of spinal cord neurogenesis, neuronal differentiation, cell migration, gliogenesis, and motor neuron cell death. The three genes, Hoxa10, Hoxc10, and Hoxd10, are all expressed in the lumbar spinal cord and have distinct expression patterns. Mutations in these three genes are known to affect motor neuron patterning. All three genes show lower levels of expression at the rostral limits of their domains, with selective regions of higher expression more caudally. Hoxa10 and Hoxd10 expression appears confined to post-mitotic cell populations in the intermediate and ventral gray, while Hoxc10 is also expressed in proliferating cells in the dorsal ventricular zone. Hoxc10 and Hoxd10 expression is clearly excluded from the lateral motor columns at rostral lumbar levels but is present in this region more caudally. Double labeling demonstrates that Hoxc10 expression is correlated with ventrolateral LIM gene expression in the caudal part of the lumbar spinal cord. (c) 2005 Elsevier B.V. All rights reserved.

Published

2006

37. Hox genes reveal genomic DNA variation in tetraploid hybrids derived from Carassius auratus red var. (female) × Megalobrama amblycephala (male)

Author

Y. D. Wang, Q. B. Qin, R. Yang, W. Z. Sun, Q. W. Liu, Y. Y. Huo, X. Huang, M. Tao, C. Zhang, T. Li, and S. J. Liu

Subjects

Allotetraploid, Hox gene, polyploidization, pseudogenization, Genetics, QH426-470

Abstract

Abstract Background Allotetraploid F1 hybrids (4nF1) (AABB, 4n = 148) were generated from the distant hybridization of Carassius auratus red var. (RCC) (AA, 2n = 100) (♀) × Megalobrama amblycephala (BSB) (BB, 2n = 48) (♂). It has been reported that Hox gene clusters are highly conserved among plants and vertebrates. In this study, we investigated the genomic organization of Hox gene clusters in the allotetraploid F1 hybrids and their parents to investigate the polyploidization process. Results There were three copies of Hox genes in the 4nF1 hybrids, two copies in RCC and one copy in BSB. In addition, obvious variation and pseudogenization were observed in some Hox genes from 4nF1. Conclusion Our results reveal the influence of polyploidization on the organization and evolution of Hox gene clusters in fish and also clarify some aspects of vertebrate genome evolution.

Published

2017

38. Deciphering the emerging landscape of HOX genes in cardiovascular biology, atherosclerosis and beyond (Review).

Author

Zhou Y, Wu Q, and Guo Y

Subjects

Humans, Heart, Atherosclerosis genetics, Atherosclerosis pathology, Cardiovascular Diseases genetics, Genes, Homeobox genetics

Abstract

Atherosclerosis, a dominant driving force underlying multiple cardiovascular events, is an intertwined and chronic inflammatory disease characterized by lipid deposition in the arterial wall, which leads to diverse cardiovascular problems. Despite unprecedented advances in understanding the pathogenesis of atherosclerosis and the substantial decline in cardiovascular mortality, atherosclerotic cardiovascular disease remains a global public health issue. Understanding the molecular landscape of atherosclerosis is imperative in the field of molecular cardiology. Recently, compelling evidence has shown that an important family of homeobox (HOX) genes endows causality in orchestrating the interplay between various cardiovascular biological processes and atherosclerosis. Despite seemingly scratching the surface, such insight into the realization of biology promises to yield extraordinary breakthroughs in ameliorating atherosclerosis. Primarily recapitulated herein are the contributions of HOX in atherosclerosis, including diverse cardiovascular biology, knowledge gaps, remaining challenges and future directions. A snapshot of other cardiovascular biological processes was also provided, including cardiac/vascular development, cardiomyocyte pyroptosis/apoptosis, cardiac fibroblast proliferation and cardiac hypertrophy, which are responsible for cardiovascular disorders. Further in‑depth investigation of HOX promises to provide a potential yet challenging landscape, albeit largely undetermined to date, for partially pinpointing the molecular mechanisms of atherosclerosis. A plethora of new targeted therapies may ultimately emerge against atherosclerosis, which is rapidly underway. However, translational undertakings are crucially important but increasingly challenging and remain an ongoing and monumental conundrum in the field.

Published

2024

39. Termite soldier mandibles are elongated by dachshund under hormonal and Hox gene controls.

Author

Yasuhiro Sugime, Kohei Oguchi, Hiroki Gotoh, Yoshinobu Hayashi, Masatoshi Matsunami, Shuji Shigenobu, Shigeyuki Koshikawa, and Toru Miura

Subjects

*TERMITES, *INSECT societies, *INSECT morphology

Abstract

In social insects, interactions among colony members trigger caste differentiation with morphological modifications. In termite soldier differentiation, the mandible size considerably increases through two moltings (via the presoldier stage) under the control of juvenile hormone (JH). Regulatory genes are predicted to provide patterning information that induces the mandible-specific cell proliferation. To identify factors responsible for the mandibular enlargement, expression analyses of 18 candidate genes were carried out in the termite Hodotermopsis sjostedti. Among those, dachshund (dac), which identifies the intermediate domain along the proximodistal appendage axis, showed mandible-specific upregulation prior to the molt into presoldiers, which can explain the pattern of cell proliferation for the mandibular elongation. Knockdown of dac by RNAi reduced the mandibular length and distorted its morphology. Furthermore, the epistatic relationships among Methoprene tolerant, Insulin receptor, Deformed (Dfd) and dac were revealed by combined RNAi and qRT-PCR analyses, suggesting that dac is regulated by Dfd, downstream of the JH and insulin signaling pathways. Thus, caste-specific morphogenesis is controlled by interactions between the factors that provide spatial information and physiological status. [ABSTRACT FROM AUTHOR]

Published

2019

40. Annotation of Hox cluster and Hox cofactor genes in the Asian citrus psyllid, Diaphorina citri, reveals novel features

Author

Mirella Flores-Gonzalez, Tom DeliaFIXX, Prashant S. Hosmani, Wayne B. Hunter, Surya Saha, Susan J. Brown, Lukas A. Mueller, and Teresa D. Shippy

Subjects

animal structures, biology, Diaphorina citri, media_common.quotation_subject, Applied Mathematics, General Mathematics, Hox cluster, Insect, biology.organism_classification, Cofactor, Annotation, Evolutionary biology, embryonic structures, biology.protein, Hox gene, Gene, Function (biology), media_common

Abstract

Hox genes and their cofactors are essential developmental genes that specify regional identity in animals, including insects. A particularly interesting feature of Hox genes is their conserved arrangement in clusters in the same order in which they specify identity along the anterior-posterior axis. Among insects, breaks in the cluster have been reported in a few species, but these seem to be the exception rather than the rule. We have annotated the ten Hox genes of the Asian citrus psyllid, Diaphorina citri, and determined that there is a split in its Hox cluster between the Deformed and Sex combs reduced genes. This is the first time a break at this position has been observed in an insect Hox cluster. We have also annotated the D. citri orthologs of the Hox cofactor genes homothorax, PKNOX and extradenticle. Interestingly, we found an additional copy of extradenticle in D. citri that appears to be a retrogene. Expression data and sequence conservation suggest that the extradenticle retrogene may have retained the original extradenticle function and allowed the parental extradenticle gene to diverge.

Published

2022

41. The early embryonic transcriptome of a Hawaiian Drosophila picture‐wing fly shows evidence of altered gene expression and novel gene evolution

Author

Anna Rusnak, Susan E. Lott, Ahmad Karkoutli, Madeline Chenevert, Joel Atallah, and Bronwyn Miller

Subjects

Evolution, education, de novo genes, embryo, maternal-to-zygotic-transition, Genome, Hawaii, Evolution, Molecular, Hox genes, transcriptomics, Hawaiian Drosophila, Drosophilidae, Adaptive radiation, Genetics, Animals, Drosophila grimshawi, Clade, Hox gene, Drosophila, Gene, Phylogeny, Ecology, Evolution, Behavior and Systematics, Evolutionary Biology, biology, fungi, Human Genome, Molecular, biology.organism_classification, Evolutionary biology, Molecular Medicine, Animal Science and Zoology, Transcriptome, novel genes, Zoology, geographic locations, Developmental Biology

Abstract

A massive adaptive radiation on the Hawaiian archipelago has produced approximately one quarter of the fly species in the family Drosophilidae. The Hawaiian Drosophila clade has long been recognized as a model system for the study of both the ecology of island endemics and the evolution of developmental mechanisms, but relatively few genomic and transcriptomic datasets are available for this group. We present here a differential expression analysis of the transcriptional profiles of two highly conserved embryonic stages in the Hawaiian picture-wing fly Drosophila grimshawi. When we compared our results to previously published datasets across the family Drosophilidae, we identified cases of both gains and losses of gene representation in D. grimshawi, including an apparent delay in Hox gene activation. We also found high expression of unannotated genes. Most transcripts of unannotated genes with open reading frames do not have homologs in non-Hawaiian Drosophila species, although the vast majority have sequence matches in other genomes of the Hawaiian picture-wing flies. Some of these genes may have arisen from non-coding sequence in the ancestor of Hawaiian flies or during the evolution of the clade. Our results suggests that both the modified use of ancestral genes and the evolution of new ones may occur in rapid radiations.RESEARCH HIGHLIGHTSThe early embryonic transcriptome of the Hawaiian fly Drosophila grimshawi shows a loss of expression of conserved Stage 5 genes, including the Hox genesThe de novo evolution of embryonically expressed genes may be occurring in the Hawaiian Drosophila lineageAUTHORS’ STATEMENTThis paper is not being considered for publication elsewhere. This study formed part of Madeline Chenevert’s M.S. thesis.

Published

2022

42. Hox gene clusters in the mussel Mytilus coruscus: Implications for bivalves' evolution.

Author

Yan, Chengrui, Xu, Minhui, Ye, Yingying, Gu, Zhongqi, Huang, Ji, Guo, Baoying, Qi, Pengzhi, Li, Jiji, and Yan, Xiaojun

Subjects

*GENE clusters, *GENE expression, *MYTILUS, *HOMEOBOX genes, *GENE families, *BIVALVES, *GENE expression profiling

Abstract

• Hox genes in Mytilus coruscus at the genome level were used to speculated the formation of subcluster collinearity in gene structure, synteny and evolution analysis. • The Hox gene expression profile in larval stages suggests the existence of subcluster collinearity in M. coruscus. • The clustering of Hox sequences in M. coruscus was different with the clustering between species. • Hox genes in bivalves provided the basis for the expression patterns of four Hox subclusters. Hox genes encode transcription factors that are crucial regulators of various developmental processes, including patterning of the body axis and differentiation of cells, tissues and organs. They are organized in clusters in a wide range of Metazoans and expressed during embryonic development in a collinear manner from the 3′ to the 5′ end of these genomic units. Hox genes are part of the larger homeobox gene super-class, and other gene clusters beyond Hox are being increasingly discovered. This transcriptional dynamic generates spatiotemporal expression patterns throughout the developing body that are required for the establishment of fields of cell identity. Here we suggest that subcluster temporal collinearity may occur during the development of a bivalve species, as demonstrated for other Bilateran species. We performed a genome-wide analysis of the Mytilus coruscus Hox gene family, including gene structure, synteny, and expression patterns. It was shown that 11 Hox genes were evenly distributed within one chromosome in M. coruscus. Phylogenetic analysis showed that 11 Hox proteins were divided into four groups and each of them contained different conserved motifs. Besides, sequence alignment and analysis showed the conservation of 11 Hox genes of M. coruscus. Selection pressure analysis revealed the Ka/Ks ratios of Hox1 , Hox4 , Lox4 , Post2 , and Post1 were less than 1 in Bivalvia, indicating that these five Hox genes suffered significant purifying selection. Notably, Hox1 , Hox4 , Post2 were overlapped with the leading gene in the subcluster collinearity. This discovery suggests the potential existence of subcluster temporal collinearity in M. coruscus , which adds new insights into Hox gene organization in Bivalvia or Mollusca. [ABSTRACT FROM AUTHOR]

Published

2023

43. Unexpected expression of heat-activated transient receptor potential (TRP) channels in winter torpid bats and cold-activated TRP channels in summer active bats

Author

Yang-Yang Li, Haipeng Li, Li-Biao Zhang, Gui-Mei He, Shan Zheng, Qing-Yun Lv, Di Liu, Guantao Zheng, Yi-Husan Pan, and Ji Ma

Subjects

TRPV4, Male, animal structures, Hot Temperature, TRPV Cation Channels, Biology, TRPC5, Thermo-TRPs, Article, Transient receptor potential channel, Mice, Hibernation, Chiroptera, Bats, Animals, Hox gene, Transcription factor, Ecology, Evolution, Behavior and Systematics, TRPC Cation Channels, Ecology, POU domain, Brain, Torpor, Cell biology, QL1-991, Homeobox, Animal Science and Zoology, Female, Seasons, Zoology

Abstract

The ability to sense temperature changes is crucial for mammalian survival. Mammalian thermal sensing is primarily carried out by thermosensitive transient receptor potential channels (Thermo-TRPs). Some mammals hibernate to survive cold winter conditions, during which time their body temperature fluctuates dramatically. However, the underlying mechanisms by which these mammals regulate thermal responses remain unclear. Using quantitative real-time polymerase chain reaction (qRT-PCR) and the Western blotting, we found that Myotis ricketti bats had high levels of heat-activated TRPs (e.g., TRPV1 and TRPV4) during torpor in winter and cold-activated TRPs (e.g., TRPM8 and TRPC5) during active states in summer. We also found that laboratory mice had high mRNA levels of cold-activated TRPs (e.g., Trpm8 and Trpc5) under relatively hot conditions (i.e., 40 °C). These data suggest that small mammals up-regulate the expression of cold-activated TRPs even under warm or hot conditions. Binding site analysis showed that some homeobox (HOX) transcription factors (TFs) regulate the expression of hot- and cold-activated TRP genes and that some TFs of the Pit-Oct-Unc (POU) family regulate warm-sensitive and cold-activated TRP genes. The dual-luciferase reporter assay results demonstrated that TFs HOXA9, POU3F1, and POU5F1 regulate TRPC5 expression, suggesting that Thermo-TRP genes are regulated by multiple TFs of the HOX and POU families at different levels. This study provides insights into the adaptive mechanisms underlying thermal sensing used by bats to survive hibernation.

Published

2022

44. Effects of Long-Chain Non-Coding Ribonucleic Acid Hox Tran Antisense RNA on Proliferation and Migration of Epithelial Cells of Cataract Lens

Author

Qiang Zeng and Yiting Luo

Subjects

medicine.anatomical_structure, Chemistry, Lens (anatomy), Biomedical Engineering, medicine, Medicine (miscellaneous), RNA, Bioengineering, Hox gene, Long chain, Biotechnology, Cell biology, Antisense RNA

Abstract

In order to explore effects of long-chain non-coding ribonucleic acid (RNA) HOTAIR on proliferation and migration of human lens epithelial cells, SRA01/04 cells were selected as the research strain in this study and divided into S1 group (no HOTAIR transfection), S2 group (siHOTAIR transfection), S3 group (siHOTAIR+10 ng/mL TGF-β2), and S4 group (no HOTAIR transfection+10 ng/mL TGF-β2) according to the presence or absence of transforming growth factor (TGF)-β2 and silent HOTAIR treatment. 3-(4,5)-dimethylthiahiazo(-z-y1)-3,5-di-phenytetrazoliumromide (MTT) colorimetric method was applied to detect cell proliferation.Western blot was used for detection of E-cadherin, zonula occluden-1 (ZO-1), Vimentin, α-smooth muscle actin (SMA), Snail, Slug, zinc finger E-box binding homeobox 1 (ZEB1), and Smad-2 expressions. Results showed that the number of transmembrane cells in S4 group was higher markedly than that of the other groups, but that of S2 group dropped steeply compared with the other groups (P α-SMA (0.64±0.28) decreased sharply compared with the other groups (P < 0.05); Snail (2.51±0.59), Slug (2.11±0.47), and ZEB1 (2.83±0.53) of S4 group rose obviously compared with the other groups, but the above of S2 group reduced hugely compared with the other groups (P < 0.05); pSmad-2 and pSmad-3 of S4 group elevated greatly compared with the other groups, and those of S2 group reduced hugely compared with the other groups (P < 0.05). In conclusion, HOTAIR high expression could promote TGF-β2-induced SRA01/04 cell proliferation, migration, invasion, and epithelial-mesenchymal trans-differentiation, which was related to TGF-β/Smad signaling pathway.

Published

2021

45. Diagnostic and prognostic value of HOXC family members in gastric cancer

Author

Mei-Qian Wang, Sen-Lin Zhu, Yi-Ru Chen, and Qi-Yun Yin

Subjects

Cancer Research, business.industry, Cancer, Value (computer science), General Medicine, Methylation, medicine.disease_cause, medicine.disease, Oncology, DNA methylation, Cancer research, Medicine, business, Carcinogenesis, Hox gene, Gene, Transcription factor

Abstract

Aims: HOX clusters encode proteins that play pivotal roles in regulating transcription factors and many other proteins during embryogenesis. However, little is known about the diagnostic and prognostic values of HOXC family members in gastric cancer (GC). Materials and methods: The authors evaluated the data in patients with GC based on bioinformatics analysis. Results: HOXC6/8/9/10/11/13 were overexpressed in GC and associated with a poor prognosis. HOXC4/5 were downregulated in GC tissues. Receiver operating characteristic curve analysis demonstrated that they have high diagnostic value. In addition, HOXC4/5/6/9/10/11/13 were negatively correlated with DNA methylation level. The gene set enrichment analysis results implied that they play essential roles in multiple biological processes underlying tumorigenesis. Conclusion: HOXC family members are potential targets for diagnosis and may work as prognostic biomarkers of GC.

Published

2021

46. A coordinated function of lncRNA HOTTIP and miRNA-196b underpinning leukemogenesis by targeting FAS signaling

Author

Karina Hamamoto, Suming Huang, Huacheng Luo, Melanie A. Eshelman, Arati Sharma, Ajeet Singh, Meghana Matur, and Julia J Lesperance

Subjects

Cancer Research, Gene knockdown, biology, Chromatin, Cell biology, Transplantation, Histone, Transcription (biology), Gene expression, microRNA, Genetics, biology.protein, RNA, Long Noncoding, Hox gene, Molecular Biology, Gene

Abstract

MicroRNAs (miRNAs) may modulate more than 60% of human coding genes and act as negative regulators, while long non-coding RNAs (lncRNAs) regulate gene expression on multiple levels by interacting with chromatin, functional proteins, and RNAs such as mRNAs and microRNAs. However, the crosstalk between lncRNA HOTTIP and miRNAs in leukemogenesis remains elusive. Using combined integrated analyses of global miRNA expression profiling and state-of-the-art genomic analyses of chromatin such as ChIRP-seq., (genome wide HOTTIP binding analysis), ChIP-seq., and ATAC-seq., we found that miRNA genes are directly controlled by HOTTIP. Specifically, the HOX cluster miRNAs (miR-196a, miR-196b, miR-10a and miR-10b), located cis & trans, were most dramatically regulated and significantly decreased in HOTTIP-/- AML cells. HOTTIP bound to the miR-196b promoter, and HOTTIP deletion reduced chromatin accessibility and enrichment of active histone modifications at HOX cluster associated miRNAs in AML cells, while reactivation of HOTTIP restored miR gene expression and chromatin accessibility in the CTCF-boundary-attenuated AML cells. Inactivation of HOTTIP or miR-196b promotes apoptosis by altering the chromatin signature at the FAS promoter and increasing FAS expression. Transplantation of miR-196b knockdown MOLM13 cells in NSG mice increased overall survival compared to wild-type cells. Thus, HOTTIP remodels the chromatin architecture around miRNAs to promote their transcription, consequently repressing tumor suppressors and promoting leukemogenesis.

Published

2021

47. Hox genes regulate asexual reproductive behavior and tissue segmentation in adult animals

Author

Stephanie H. Nowotarski, Christopher P. Arnold, Chris Seidel, Jeffrey J. Lange, Analí Migueles Lozano, Alejandro Sánchez Alvarado, Frederick G. Mann, and Julianna O. Haug

Subjects

animal structures, Science, General Physics and Astronomy, Asexual reproduction, General Biochemistry, Genetics and Molecular Biology, Article, Cell growth, Schmidtea mediterranea, Reproduction, Asexual, Gene silencing, Animals, Regeneration, RNA-Seq, Hox gene, Gene, Transcription factor, Genes, Helminth, In Situ Hybridization, Fluorescence, Homeodomain Proteins, Body patterning, Multidisciplinary, Microscopy, Confocal, biology, Effector, Genes, Homeobox, Gene Expression Regulation, Developmental, General Chemistry, Planarians, biology.organism_classification, Cell biology, Planarian, embryonic structures, Microscopy, Electron, Scanning, RNA Interference, Transcription Factors

Abstract

Hox genes are highly conserved transcription factors renowned for their roles in the segmental patterning of the embryonic anterior-posterior (A/P) axis. We report functions for Hox genes in A/P tissue segmentation and transverse fission behavior underlying asexual reproduction in adult planarian flatworms, Schmidtea mediterranea. Silencing of each of the Hox family members identifies 5 Hox genes required for asexual reproduction. Among these, silencing of hox3 genes results in supernumerary fission segments, while silencing of post2b eliminates segmentation altogether. The opposing roles of hox3 and post2b in segmentation are paralleled in their respective regulation of fission behavior. Silencing of hox3 increases the frequency of fission behavior initiation while silencing of post2b eliminates fission behavior entirely. Furthermore, we identify a network of downstream effector genes mediating Hox gene functions, providing insight into their respective mechanisms of action. In particular, we resolve roles for post2b and effector genes in the functions of the marginal adhesive organ in fission behavior regulation. Collectively, our study establishes adult stage roles for Hox genes in the regulation of tissue segmentation and behavior associated with asexual reproduction., Hox genes are highly conserved and well-known for their role in segmental patterning during early development. Here, the authors identify an unreported role for Hox genes in the adult tissue patterning and fission behavior required for asexual reproduction in planarian flatworms.

Published

2021

48. (Non)Parallel developmental mechanisms in vertebrate appendage reduction and loss

Author

Samantha Swank, Yoel E. Stuart, and Thomas J. Sanger

Subjects

Appendage, convergence, Ecology, biology, Gene regulatory network, Vertebrate, Review Article, evolutionary development, Pitx1, Phenotype, limb loss, Hox genes, Evolutionary biology, biology.animal, Evolutionary developmental biology, Hox gene, Gene, Review Articles, gene regulatory networks, QH540-549.5, Ecology, Evolution, Behavior and Systematics, Loss function, Hedgehog, Nature and Landscape Conservation

Abstract

Appendages have been reduced or lost hundreds of times during vertebrate evolution. This phenotypic convergence may be underlain by shared or different molecular mechanisms in distantly related vertebrate clades. To investigate, we reviewed the developmental and evolutionary literature of appendage reduction and loss in more than a dozen vertebrate genera from fish to mammals. We found that appendage reduction and loss was nearly always driven by modified gene expression as opposed to changes in coding sequences. Moreover, expression of the same genes was repeatedly modified across vertebrate taxa. However, the specific mechanisms by which expression was modified were rarely shared. The multiple routes to appendage reduction and loss suggest that adaptive loss of function phenotypes might arise routinely through changes in expression of key developmental genes., Appendages have been independently reduced or lost hundreds of times during vertebrate evolution. Despite that selection seems to routinely favor a reduced appendage, we found that the specific mechanisms to appendage reduction and loss are rarely shared, even when the same genes were involved.

Published

2021

49. The rapid variation of Hox clusters reveals a clear evolutionary path in a crucian carp-like homodiploid fish lineage

Author

Fangzhou Hu, Mei Han, Wuhui Li, Shaojun Liu, Xuexue Huang, Ming Wen, Lan Chen, Yude Wang, Kaikun Luo, Chun Zhang, Min Tao, Conghui Yang, Yuqin Shu, Rurong Zhao, Qilong Liu, Rong Zhou, Chenchen Tang, Shi Wang, and Min Wang

Subjects

animal structures, Lineage (genetic), biology, Phylogenetic tree, Pseudogene, General Medicine, biology.organism_classification, Common carp, Evolutionary biology, embryonic structures, Crucian carp, Hox gene, Gene, Megalobrama

Abstract

The surprising variation in the number of Hox clusters and genome structure in ray-finned fish lineages reflects the history of duplications and subsequent lineage-specific gene loss. However, there are few studies on whether Hox clusters in the early generations of hybrid lineages show more significant variation due to the continuous genomic oscillation caused by distant hybridization. We sequenced and analyzed Hox gene clusters from a crucian carp-like homodiploid fish (NCRC) lineage (a new hybrid lineage derived from common carp (Cyprinus carpio) (♀) ​× ​blunt snout bream (Megalobrama amblycephala) (♂)). In the NCRC lineage, we reconstructed seven Hox clusters consisting of 48 Hox genes, ten of which were pseudogenes. The number of putative Hox clusters generated in NCRC-F1 was increased greatly by distant hybridization to an average number almost twice that in the maternal parent. This increasing trend continued in the subsequent self-mating generations of NCRC-F1. In contrast, the number of Hox cluster fragments inherited from the original parents gradually decreased as the number of NCRC lineage generations increased. This pattern was also found in the inheritance of recombinant Hox clusters. In terms of base composition, some genetic rules for the inheritance of these Hox clusters between different generations of the NCRC lineage were identified. Furthermore, the newly derived mutated Hox clusters in the NCRC lineage showed phylogenetic relationships that were closer to either crucian carp or silver crucian carp, revealing a clear evolutionary path. This study deepens our understanding of the evolution of Hox genes in the ray-finned fish clade.

Published

2021

50. Integrated molecular analysis reveals hypermethylation and overexpression of HOX genes to be poor prognosticators in isocitrate dehydrogenase mutant glioma.

Author

Mamatjan Y, Voisin MR, Nassiri F, Moraes FY, Bunda S, So J, Salih M, Shirahata M, Ono T, Shimizu H, Schrimpf D, von Deimling A, Aldape KD, and Zadeh G

Subjects

Humans, Genes, Homeobox, Isocitrate Dehydrogenase genetics, DNA Copy Number Variations, Mutation, RNA, Messenger, Glioma pathology, Brain Neoplasms pathology

Abstract

Background: Diffuse gliomas represent over 80% of malignant brain tumors ranging from low-grade to aggressive high-grade lesions. Within isocitrate dehydrogenase (IDH)-mutant gliomas, there is a high variability in survival and a need to more accurately predict outcome., Methods: To identify and characterize a predictive signature of outcome in gliomas, we utilized an integrative molecular analysis (using methylation, mRNA, copy number variation (CNV), and mutation data), analyzing a total of 729 IDH-mutant samples including a test set of 99 from University Health Network (UHN) and 2 validation cohorts including the German Cancer Research Center (DKFZ) and The Cancer Genome Atlas (TCGA)., Results: Cox regression analysis of methylation data from the UHN cohort identified CpG-based signatures that split the glioma cohort into 2 prognostic groups strongly predicting survival that were validated using 2 independent cohorts from TCGA and DKFZ (all P-values < .0001). The methylation signatures that predicted poor outcomes also exhibited high CNV instability and hypermethylation of HOX gene probes. Integrated multi-platform analyses using mRNA and methylation (iRM) showed that parallel HOX gene overexpression and simultaneous hypermethylation were significantly associated with increased mutational load, high aneuploidy, and worse survival (P-value < .0001). A 7-HOX gene signature was developed and validated using the most significantly associated HOX genes with patient outcome in both 1p/19q codeleted and non-codeleted IDHmut gliomas., Conclusions: HOX gene methylation and expression provide important prognostic information in IDH-mutant gliomas that are not captured by current molecular diagnostics. A 7-HOX gene signature of outcome shows significant survival differences in both 1p/19q codeleted and non-codeleted IDH-mutant gliomas., (© The Author(s) 2023. Published by Oxford University Press on behalf of the Society for Neuro-Oncology. All rights reserved. For permissions, please e-mail: journals.permissions@oup.com.)

Published

2023