Your search keyword '"3′UTR"' showing total 1,047 results

1. 3'UTR of tobacco vein mottling virus regulates downstream GFP expression and changes in host gene expression.

Author

Zhenqi Sun, Dongyang Liu, Bin Li, Fangfang Yan, Yuhu Wang, Tianqi Yang, Haijuan Wang, Jiaxin Xu, Hongyou Zhou, and Mingmin Zhao

Subjects

GENE expression, TRANSCRIPTION factors, GREEN fluorescent protein, PLANT genes, DISEASE resistance of plants

Abstract

Introduction: Tobacco vein mottling virus (TVMV) is a member of the family Potyviridae. The 3' untranslated region (3'UTR) of viral genomic RNA has been reported to significantly impact viral infection. Nevertheless, the role of the TVMV 3'UTR during viral infection remains unknown. Methods: Here, a 3'UTR-GFP expression vector was transiently expressed in Nicotiana benthamiana, in which the 3'UTR of TVMV was introduced upstream of the green fluorescent protein (GFP) gene. Transcriptome sequencing was performed to analyze the genes associated with plant resistance. The effect of the TVMV 3'UTR on GFP expression was studied using an Agrobacteriummediated transient expression assay, revealing that the TVMV 3'UTR significantly inhibited GFP expression. Transcriptome analysis of differentially expressed genes in 3'UTR-GFP in N. benthamiana was performed to elucidate the why the TVMV 3'UTR inhibited GFP expression. Results: Eighty genes related to plant disease resistance were differentially expressed, including 29 upregulated and 51 downregulated genes. Significantly upregulated genes included those encoding the calcium-binding protein CML24, leucine-rich repeat receptor-like tyrosine-protein kinase, and respiratory burst oxidase homolog protein E. The significantly downregulated genes included calcium-binding protein 7, ethylene-responsive transcription factor 10, endoglucanase 5, and receptor-like protein kinase. Discussion: These findings indicate that the 3'UTR of TVMV may inhibit the expression of GFP gene by inducing the expression of plant resistance genes. This study provides a theoretical basis for further research on the function and mechanism of the TVMV 3'UTR. [ABSTRACT FROM AUTHOR]

Published

2024

2. Investigation of the putative functional relevance of the IL-6 3'UTR genetic variants with athletic phenotype in Turkish triathletes.

Author

Pirim, Dilek, Niş, Hasan Faruk, and Bağcı, Fatih Atilla

Subjects

*SINGLE nucleotide polymorphisms, *ATHLETIC ability, *GENETIC variation, *LINKAGE disequilibrium, *BINDING sites

Abstract

Previous research suggests that genetic variants in the interleukin-6 (IL-6) gene contribute to sport-related traits and athletic performance. We aimed to identify sequence variants in the IL-6 gene region comprising the 3' untranslated region (UTR) in the Turkish triathletes and sedentary individuals and assessed their putative roles in tendency to athletic phenotype. Sequence variants were identified in the Turkish triathletes (n = 47) and sedentary individuals (n = 46) by Sanger sequencing. Allele/genotype frequencies and linkage disequilibrium (LD) patterns were calculated by the Haploview program. The functional significance of the detected variants was analyzed using in silico prediction tools. Four single nucleotide variants (rs13306435, rs747302620, rs2069849, rs13306436) were detected in saliva samples of the participants by sequencing the target region. Notably, rs13306436-3'UTR/IL-6 was only seen in the triathletes, while the exonic rs747302620 was observed in only sedentary group. Also, rs13306436G>A causes loss/gain sites for binding multiple miRNAs that may be associated with athletic performance. Our findings indicate that the 3'UTR/IL-6 may have functional relevance in determining sports talent. Future comprehensive studies focusing on the IL-6 gene in athletes may pave the way for not only determining the athletic status of the individuals but also have implications for translational medicine. [ABSTRACT FROM AUTHOR]

Published

2024

3. Investigation of the putative functional relevance of the IL-6 3'UTR genetic variants with athletic phenotype in Turkish triathletes

Author

Fatih Atilla Bağcı, Hasan Faruk Niş, and Dilek Pirim

Subjects

3'utr, bioinformatics, snv, sport genetics, interleukin-6, triathletes, Science (General), Q1-390

Abstract

Previous research suggests that genetic variants in the interleukin-6 (IL-6) gene contribute to sport-related traits and athletic performance. We aimed to identify sequence variants in the IL-6 gene region comprising the 3' untranslated region (UTR) in the Turkish triathletes and sedentary individuals and assessed their putative roles in tendency to athletic phenotype. Sequence variants were identified in the Turkish triathletes (n = 47) and sedentary individu-als (n = 46) by Sanger sequencing. Allele/genotype frequencies and linkage disequilibrium (LD) patterns were calculated by the Haploview program. The functional significance of the detected variants was analyzed using in silico prediction tools. Four single nucleotide vari-ants (rs13306435, rs747302620, rs2069849, rs13306436) were detected in saliva samples of the participants by sequencing the target region. Notably, rs13306436-3'UTR/IL-6 was only seen in the triathletes, while the exonic rs747302620 was observed in only sedentary group. Also, rs13306436G>A causes loss/gain sites for binding multiple miRNAs that may be associated with athletic performance. Our findings indicate that the 3'UTR/IL-6 may have functional relevance in determining sports talent. Future comprehensive studies focusing on the IL-6 gene in athletes may pave the way for not only determining the athletic status of the individuals but also have implications for translational medicine.

Published

2024

4. Posttranscriptional regulation of the T-box gene midline via the 3′UTR in Drosophila is complex and cell- and tissue-dependent.

Author

Makhijani, Kalpana, Mar, Jordan, Gaziova, Ivana, and Bhat, Krishna Moorthi

Subjects

*AMINO acid metabolism, *RNA metabolism, *DNA metabolism, *CARRIER proteins, *RESEARCH funding, *PHENOMENOLOGICAL biology, *CELL physiology, *BIOCHEMISTRY, *GENE expression, *MESSENGER RNA, *CELL culture, *CELL lines, *ANIMAL experimentation, *INSECTS, *IMMUNITY

Abstract

The T-box (Tbx) proteins have a 180–230 amino acid DNA-binding domain, first reported in the Brachyury (T) protein. They are highly conserved among metazoans. They regulate a multitude of cellular functions in development and disease. Here, we report posttranscriptional and translational regulation of midline (mid), a Tbx member in Drosophila. We found that the 3′UTR of mid has mRNA degradation elements and AT-rich sequences. In Schneider S2 cells, mid- mRNA could be detected only when the transgene was without the 3′UTR. Similarly, the 3′UTR linked to the Renilla luciferase reporter significantly reduced the activity of the Luciferase, whereas deleting only the degradation elements from the 3′UTR resulted in reduced activity, but not as much. Overexpression of mid in MP2, an embryonic neuroblast, showed no significant difference in the levels of mid- mRNA between the 2 transgenes, with and without the 3′UTR, indicating the absence of posttranscriptional regulation of mid in MP2. Moreover, while elevated mid- RNA was detected in MP2 in nearly all hemisegments, only a fifth of those hemisegments had elevated levels of the protein. Overexpression of the 2 transgenes resulted in MP2-lineage defects at about the same frequency. These results indicate a translational/posttranslational regulation of mid in MP2. The regulation of ectopically expressed mid in the wing imaginal disc was complex. In the wing disc, where mid is not expressed, the ectopic expression of the transgene lacking the 3′UTR had a higher level of mid- RNA and the protein had a stronger phenotypic effect. These results indicate that the 3′UTR can subject mid -mRNA to degradation in a cell- and tissue-specific manner. We further report a balancer-mediated transgenerational modifier effect on the expression and gain of function effects of the 2 transgenes. [ABSTRACT FROM AUTHOR]

Published

2024

5. Hsa-miR-874-3p Reduces Endogenous Expression of RGS4-1 Isoform In Vitro.

Author

Xu, Feng-Ling and Wang, Bao-Jie

Subjects

*WESTERN immunoblotting, *PEOPLE with schizophrenia, *PREFRONTAL cortex, *MENTAL illness, *MICRORNA

Abstract

Background: The level of the regulator of G-protein signaling 4-1 (RGS4-1) isoform, the longest RGS4 isoform, is significantly reduced in the dorsolateral prefrontal cortex (DLPFC) of people with schizophrenia. However, the mechanism behind this has not been clarified. The 3′untranslated regions (3′UTRs) are known to regulate the levels of their mRNA splice variants. Methods: We constructed recombinant pmir-GLO vectors with a truncated 3′ regulatory region of the RGS4 gene (3R1, 3R2, 3R3, 3R4, 3R5, and 3R6). The dual-luciferase reporter assay was conducted to find functional regions in HEK-293, SK-N-SH, and U87cells and then predicted miRNA binding to these regions. We performed a dual-luciferase reporter assay and a Western blot analysis after transiently transfecting the predicted miRNAs. Results: The dual-luciferase reporter assay found that regions +401–+789, +789–+1152, and +1562–+1990 (with the last base of the termination codon being +1) might be functional regions. Hsa-miR-874-3p, associated with many psychiatric disorders, might target the +789–+1152 region in the 3′UTR of the RGS4 gene. In the dual-luciferase reporter assay, the hsa-miR-874-3p mimic, co-transfected with 3R1, down-regulated the relative fluorescence intensities. However, this was reversed when the hsa-miR-874-3p mimic was co-transfected with m3R1 (deletion of +853–+859). The hsa-miR-874-3p mimic significantly decreased the endogenous expression of the RGS4-1 isoform in HEK-293 cells. Conclusions: Hsa-miR-874-3p inhibits the expression of the RGS4-1 isoform by targeting +853–+859. [ABSTRACT FROM AUTHOR]

Published

2024

6. 5-mC methylation study of sORFs in 3ˈUTR of transcription factor JUNGBRUNNEN 1-like during leaf rust pathogenesis in wheat.

Author

Afreen, Uzma and Kumar, Manish

Abstract

Background: JUB1, a NAC domain containing hydrogen peroxide-induced transcription factor, plays a critical role in plant immunity. Little is known about how JUB1 responds to leaf rust disease in wheat. Recent discoveries in genomics have also unveiled a multitude of sORFs often assumed to be non-functional, to argue for the necessity of including them as potential regulatory players of translation. However, whether methylation on sORFs spanning the 3'UTR of regulatory genes like JUB1 modulate gene expression, remains unclear. Methods and results: In this study, we identified the methylation states of two sORFs in 3'UTR of a homologous gene of JUB1 in wheat, TaJUB1-L, at cytosine residues in CpG, CHH and CHG sites at different time points of disease progression in two near-isogenic lines of wheat (HD2329), with and without Lr24 gene during leaf rust pathogenesis. Here, we report a significant demethylation of the CpG dinucleotides occurring in the sORFs of the 3'UTR in the resistant isolines after 24 h post-infection. Also, the up-regulated gene expression observed through RT-qPCR was directly proportional to the demethylation of the CpG sites in the sORFs. Conclusions: Our findings indicate that TaJUB1-L might be a positive regulator in providing tolerance during leaf rust pathogenesis and cytosine methylation at 3'UTR might act as a switch for its expression control. These results enrich the potential benefit of conventional methylation assay techniques for unraveling the unexplored enigma in epigenetics during plant-pathogen interaction in a cost-effective and confidentially conclusive manner. [ABSTRACT FROM AUTHOR]

Published

2024

7. Alternative 3′UTR expression induced by T cell activation is regulated in a temporal and signal dependent manner

Author

Davia Blake, Matthew R. Gazzara, Isabel Breuer, Max Ferretti, and Kristen W. Lynch

Subjects

Alternative polyadenylation, 3′UTR, CD3, CD28, T cell receptors, Medicine, Science

Abstract

Abstract The length of 3′ untranslated regions (3′UTR) is highly regulated during many transitions in cell state, including T cell activation, through the process of alternative polyadenylation (APA). However, the regulatory mechanisms and functional consequences of APA remain largely unexplored. Here we present a detailed analysis of the temporal and condition-specific regulation of APA following activation of primary human CD4+ T cells. We find that global APA changes are regulated temporally and CD28 costimulatory signals enhance a subset of these changes. Most APA changes upon T cell activation involve 3′UTR shortening, although a set of genes enriched for function in the mTOR pathway exhibit 3′UTR lengthening. While upregulation of the core polyadenylation machinery likely induces 3′UTR shortening following prolonged T cell stimulation; a significant program of APA changes occur prior to cellular proliferation or upregulation of the APA machinery. Motif analysis suggests that at least a subset of these early changes in APA are driven by upregulation of RBM3, an RNA-binding protein which competes with the APA machinery for binding. Together this work expands our understanding of the impact and mechanisms of APA in response to T cell activation and suggests new mechanisms by which APA may be regulated.

Published

2024

8. Alternative 3′UTR expression induced by T cell activation is regulated in a temporal and signal dependent manner.

Author

Blake, Davia, Gazzara, Matthew R., Breuer, Isabel, Ferretti, Max, and Lynch, Kristen W.

Subjects

*T cells, *RNA-binding proteins, *CELL proliferation

Abstract

The length of 3′ untranslated regions (3′UTR) is highly regulated during many transitions in cell state, including T cell activation, through the process of alternative polyadenylation (APA). However, the regulatory mechanisms and functional consequences of APA remain largely unexplored. Here we present a detailed analysis of the temporal and condition-specific regulation of APA following activation of primary human CD4+ T cells. We find that global APA changes are regulated temporally and CD28 costimulatory signals enhance a subset of these changes. Most APA changes upon T cell activation involve 3′UTR shortening, although a set of genes enriched for function in the mTOR pathway exhibit 3′UTR lengthening. While upregulation of the core polyadenylation machinery likely induces 3′UTR shortening following prolonged T cell stimulation; a significant program of APA changes occur prior to cellular proliferation or upregulation of the APA machinery. Motif analysis suggests that at least a subset of these early changes in APA are driven by upregulation of RBM3, an RNA-binding protein which competes with the APA machinery for binding. Together this work expands our understanding of the impact and mechanisms of APA in response to T cell activation and suggests new mechanisms by which APA may be regulated. [ABSTRACT FROM AUTHOR]

Published

2024

9. Post-transcriptional regulation and subcellular localization of G-protein γ7 subunit: implications for striatal function and behavioral responses to cocaine.

Author

Pelletier, Oliver B., Brunori, Gloria, Yingcai Wang, and Robishaw, Janet D.

Subjects

DOPAMINE receptors, MEDIUM spiny neurons, KNOCKOUT mice, COCAINE

Abstract

The striatal D1 dopamine receptor (D1R) and A2a adenosine receptor (A2aR) signaling pathways play important roles in drug-related behaviors. These receptors activate the Golf protein comprised of a specific combination of αolfβ2γ7 subunits. During assembly, the γ7 subunit sets the cellular level of the Golf protein. In turn, the amount of Golf protein determines the collective output from both D1R and A2aR signaling pathways. This study shows the Gng7 gene encodes multiple γ7 transcripts differing only in their non-coding regions. In striatum, Transcript 1 is the predominant isoform. Preferentially expressed in the neuropil, Transcript 1 is localized in dendrites where it undergoes post-transcriptional regulation mediated by regulatory elements in its 3' untranslated region that contribute to translational suppression of the γ7 protein. Earlier studies on gene-targeted mice demonstrated loss of γ7 protein disrupts assembly of the Golf protein. In the current study, morphological analysis reveals the loss of the Golf protein is associated with altered dendritic morphology of medium spiny neurons. Finally, behavioral analysis of conditional knockout mice with cell-specific deletion of the γ7 protein in distinct populations of medium spiny neurons reveals differential roles of the Golf protein in mediating behavioral responses to cocaine. Altogether, these findings provide a better understanding of the regulation of γ7 protein expression, its impact on Golf function, and point to a new potential target and mechanisms for treating addiction and related disorders. [ABSTRACT FROM AUTHOR]

Published

2024

10. Novel and deleterious nucleotide variations in the HAND1 gene probably affect miRNA target sites and protein function in pediatric patients with congenital heart disease.

Author

Tabrizi, Fateme, Khatami, Mehri, Heidari, Mohammad Mehdi, Bragança, José, Tatari, Hasan, Namnabat, Mohsen, Hadadzadeh, Mehdi, and Navabi Shirazi, Mohammad Ali

Abstract

Background: Congenital heart disease (CHD) is the most prevalent developmental defect and principal cause of infant mortality and affects cardiac and large blood vessel structures in approximately 1% of live births worldwide. To date, numerous studies have related critical genetic dysfunctions to the pathogenesis of CHDs. However, the genetic basis underlying CHD remains largely unknown. In the present study, we investigated the association of nucleotide variations in coding and noncoding regions of the HAND1 gene with the risk of CHD. The HAND1 gene, encoding a helix-loop-helix transcription factor, is particularly relevant for mechanisms underlying CHD since it plays a significant role in heart development. Methods and results: The genomic DNA of 150 unrelated pediatric patients with CHD was screened by PCR-SSCP and direct sequencing. Four novel and heterozygous missense mutations were identified in the first exon, with three causing amino acid substitutions (p.Val149Met, p.Tyr142His, and p.Leu146Met). In-silico analysis also indicated their deleterious impact on protein structure and function. In addition, we identified five novel nucleotide variants in the 3′UTR region (c.*461, c.*342, c.*529, c.*448, c.*593), potentially altering the target sites of miRNAs. These changes include the loss of certain target sites and the acquisition of new ones. Conclusions: These findings confirm the phenotypic association between CHDs and HAND1 mutations and can pave the way for developing new preventive and therapeutic strategies. [ABSTRACT FROM AUTHOR]

Published

2024

11. ERK1/2 信号通路基因 3'UTR 多态性与非小细胞肺癌的相关性.

Author

洪超, 向旭东, 李盈甫, 曹杨, 陈雪雅, 李帅, 邢安灏, 林牧, and 马千里

Abstract

Objective To investigate the association between four single nucleotide polymorphisms (SNP) ( rs9340 in MAPK1, rs14804 in NRAS, rs712 and rs7973450 in KRAS) in the 3'UTR of ERK1/2 signaling pathway-related genes and non-small cell lung cancer (NSCLC). Methods A total of 478 NSCLC patients and 480 healthy controls were enrolled in this study. Four SNPs were genotyped by using TaqMan assays. The association between the four SNPs and NSCLC was analyzed. Results The distribution frequency difference of the allele of rs9340 was statistically significant between the control group and the non-small cell squamous cell carcinoma (SCC) group ( P = 0.009), suggesting that the G allele of rs9340 may be a protective factor for non-small cell lung squamous cell carcinoma ( OR = 0.67, 95%CI: 0.50 ~0.91). In addition, in the < 50 years age group, the distribution frequency difference of the allele of rs9340 was statistically significant between the control group and the NSCLC group (P = 5.07 × 10-4), indicating that the G allele of rs9340 may be a protective factor for NSCLC (OR = 0.46, 95%CI: 0.29~0.72). Conclusion The SNP rs9340 in MAPK1 may be associated with the risk of NSCLC. [ABSTRACT FROM AUTHOR]

Published

2024

12. ZFP36L1 and ZFP36L2 reduce cyclin D1 expression by decreasing expression of E2F1 and long 3’UTR isoform of CCND1 transcripts

Author

Chan, Tze-Sian, Lee, Kun-Lin, Hung, Ching-Sheng, Chiang, Hsin-Pei, Chung, Chia-Chen, and Liang, Yu-Chih

Published

2024

13. Untranslated Region Sequences and the Efficacy of mRNA Vaccines against Tuberculosis.

Author

Reshetnikov, Vasiliy, Terenin, Ilya, Shepelkova, Galina, Yeremeev, Vladimir, Kolmykov, Semyon, Nagornykh, Maxim, Kolosova, Elena, Sokolova, Tatiana, Zaborova, Olga, Kukushkin, Ivan, Kazakova, Alisa, Kunyk, Dmitry, Kirshina, Anna, Vasileva, Olga, Seregina, Kristina, Pateev, Ildus, Kolpakov, Fedor, and Ivanov, Roman

Subjects

*TUBERCULOSIS vaccines, *VACCINE effectiveness, *GENE expression, *LUCIFERASES, *RNA-binding proteins, *LABORATORY mice

Abstract

mRNA vaccines have been shown to be effective in combating the COVID-19 pandemic. The amount of research on the use of mRNAs as preventive and therapeutic modalities has undergone explosive growth in the last few years. Nonetheless, the issue of the stability of mRNA molecules and their translation efficiency remains incompletely resolved. These characteristics of mRNA directly affect the expression level of a desired protein. Regulatory elements of RNA—5′ and 3′ untranslated regions (UTRs)—are responsible for translation efficiency. An optimal combination of the regulatory sequences allows mRNA to significantly increase the target protein's expression. We assessed the translation efficiency of mRNA encoding of firefly luciferase with various 5′ and 3′UTRs in vitro on cell lines DC2.4 and THP1. We found that mRNAs containing 5′UTR sequences from eukaryotic genes HBB, HSPA1A, Rabb, or H4C2, or from the adenoviral leader sequence TPL, resulted in higher levels of luciferase bioluminescence 4 h after transfection of DC2.4 cells as compared with 5′UTR sequences used in vaccines mRNA-1273 and BNT162b2 from Moderna and BioNTech. mRNA containing TPL as the 5′UTR also showed higher efficiency (as compared with the 5′UTR from Moderna) at generating a T-cell response in mice immunized with mRNA vaccines encoding a multiepitope antigen. By contrast, no effects of various 5′UTRs and 3′UTRs were detectable in THP1 cells, suggesting that the observed effects are cell type specific. Further analyses enabled us to identify potential cell type-specific RNA-binding proteins that differ in landing sites within mRNAs with various 5′UTRs and 3′UTRs. Taken together, our data indicate high translation efficiency of TPL as a 5′UTR, according to experiments on DC2.4 cells and C57BL/6 mice. [ABSTRACT FROM AUTHOR]

Published

2024

14. Translational control of furina by an RNA regulon is important for left-right patterning, heart morphogenesis and cardiac valve function.

Author

Nagorska, Agnieszka, Zaucker, Andreas, Lambert, Finnlay, Inman, Angus, Toral-Perez, Sara, Gorodkin, Jan, Yue Wan, Smutny, Michael, and Sampath, Karuna

Subjects

*HEART valves, *HEART, *HEART development, *RNA, *ATRIUMS (Architecture), *MORPHOGENESIS, *TRANSCRIPTOMES

Abstract

Heart development is a complex process that requires asymmetric positioning of the heart, cardiac growth and valve morphogenesis. The mechanisms controlling heart morphogenesis and valve formation are not fully understood. The pro-convertase FurinA functions in heart development across vertebrates. How FurinA activity is regulated during heart development is unknown. Through computational analysis of the zebrafish transcriptome, we identified an RNA motif in a variant FurinA transcript harbouring a long 3' untranslated region (3'UTR). The alternative 3'UTR furina isoform is expressed prior to organ positioning. Somatic deletions in the furina 3'UTR lead to embryonic left-right patterning defects. Reporter localisation and RNA-binding assays show that the furina 3'UTR forms complexes with the conserved RNA-binding translational repressor, Ybx1. Conditional ybxl mutant embryos show premature and increased Furin reporter expression, abnormal cardiac morphogenesis and looping defects. Mutant ybxl hearts have an expanded atrioventricular canal, abnormal sino-atrial valves and retrograde blood flow from the ventricle to the atrium. This is similar to observations in humans with heart valve regurgitation. Thus, the furina 3'UTR element/Ybx1 regulon is important for translational repression of FurinA and regulation of heart development. [ABSTRACT FROM AUTHOR]

Published

2023

15. Post-transcriptional regulation and subcellular localization of G-protein γ7 subunit: implications for striatal function and behavioral responses to cocaine

Author

Oliver B. Pelletier, Gloria Brunori, Yingcai Wang, and Janet D. Robishaw

Subjects

G-protein assembly, Gng7, 3’UTR, striatum, spatiotemporal control, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571, Human anatomy, QM1-695

Abstract

The striatal D1 dopamine receptor (D1R) and A2a adenosine receptor (A2aR) signaling pathways play important roles in drug-related behaviors. These receptors activate the Golf protein comprised of a specific combination of αolfβ2γ7 subunits. During assembly, the γ7 subunit sets the cellular level of the Golf protein. In turn, the amount of Golf protein determines the collective output from both D1R and A2aR signaling pathways. This study shows the Gng7 gene encodes multiple γ7 transcripts differing only in their non-coding regions. In striatum, Transcript 1 is the predominant isoform. Preferentially expressed in the neuropil, Transcript 1 is localized in dendrites where it undergoes post-transcriptional regulation mediated by regulatory elements in its 3′ untranslated region that contribute to translational suppression of the γ7 protein. Earlier studies on gene-targeted mice demonstrated loss of γ7 protein disrupts assembly of the Golf protein. In the current study, morphological analysis reveals the loss of the Golf protein is associated with altered dendritic morphology of medium spiny neurons. Finally, behavioral analysis of conditional knockout mice with cell-specific deletion of the γ7 protein in distinct populations of medium spiny neurons reveals differential roles of the Golf protein in mediating behavioral responses to cocaine. Altogether, these findings provide a better understanding of the regulation of γ7 protein expression, its impact on Golf function, and point to a new potential target and mechanisms for treating addiction and related disorders.

Published

2024

16. Identification of Candidate RNA Binding Proteins Associated with RNPS1 3’UTR

Author

Deka, Bhagyashree, Singh, Kusum Kumari, Pandey, Lalit M., editor, Gupta, Raghvendra, editor, Thummer, Rajkumar P., editor, and Kar, Rajiv Kumar, editor

Published

2023

17. Differential impact of BRAFV600E isoforms on tumorigenesis in a zebrafish model of melanoma

Author

Raffaella De Paolo, Samanta Sarti, Sara Bernardi, Francesco Cucco, Andrea Tavosanis, Letizia Pitto, and Laura Poliseno

Subjects

Zebrafish, Melanoma modeling, BRAFV600E-ref, BRAFV600E-X1, 3’UTR, Biotechnology, TP248.13-248.65, Biology (General), QH301-705.5, Biochemistry, QD415-436

Abstract

Abstract BRAFV600E comes as two main splicing variants. The well-studied ref isoform and the recently discovered X1 isoform are co-expressed in cancer cells and differ in terms of 3’UTR length and sequence, as well as C-term protein sequence. Here, we use a melanoma model in zebrafish to study the role played by each isoform in larval pigmentation, nevi formation, and their progression into melanoma tumours. We show that both BRAFV600E-ref and BRAFV600E-X1 proteins promote larval pigmentation and nevi formation, while melanoma-free survival curves performed in adult fish indicate that BRAFV600E-ref protein is a much stronger melanoma driver that BRAFV600E-X1 protein. Crucially, we also show that the presence of the 3’UTR suppresses the effect of ref protein. Our data highlight the necessity to undertake a systematic study of BRAFV600E isoforms, in order to uncover the full spectrum of their kinase-(in)dependent and coding-(in)dependent functions, hence to develop more informed strategies for therapeutic targeting.

Published

2023

18. Application of the iPLUS non-coding sequence in improving biopharmaceuticals production

Author

Inês Reis-Claro, Maria Inês Silva, Ana Moutinho, Beatriz C. Garcia, Isabel Pereira-Castro, and Alexandra Moreira

Subjects

cis-regulatory sequences, mRNA therapeutics, recombinant protein expression, USE, 3′UTR, iPLUS, Biotechnology, TP248.13-248.65

Abstract

The biotechnological landscape has witnessed significant growth in biological therapeutics particularly in the field of recombinant protein production. Here we investigate the function of 3′UTR cis-regulatory elements in increasing mRNA and protein levels in different biological therapeutics and model systems, spanning from monoclonal antibodies to mRNA vaccines. We explore the regulatory function of iPLUS - a universal sequence capable of consistently augmenting recombinant protein levels. By incorporating iPLUS in a vector to express a monoclonal antibody used in immunotherapy, in a mammalian cell line used by the industry (ExpiCHO), trastuzumab production increases by 2-fold. As yeast Pichia pastoris is widely used in the manufacture of industrial enzymes and pharmaceuticals, we then used iPLUS in tandem (3x) and iPLUSv2 (a variant of iPLUS) to provide proof-of-concept data that it increases the production of a reporter protein more than 100-fold. As iPLUS functions by also increasing mRNA levels, we hypothesize that these sequences could be used as an asset in the mRNA vaccine industry. In fact, by including iPLUSv2 downstream of Spike we were able to double its production. Moreover, the same effect was observed when we introduced iPLUSv2 downstream of MAGEC2, a tumor-specific antigen tested for cancer mRNA vaccines. Taken together, our study provides data (TLR4) showing that iPLUS may be used as a valuable asset in a variety of systems used by the biotech and biopharmaceutical industry. Our results underscore the critical role of non-coding sequences in controlling gene expression, offering a promising avenue to accelerate, enhance, and cost-effectively optimize biopharmaceutical production processes.

Published

2024

19. Impact of MICA 3′UTR allelic variability on miRNA binding prediction, a bioinformatic approach

Author

Karen Toledo-Stuardo, Carolina H. Ribeiro, Ivo Campos, Samantha Tello, Yesenia Latorre, Claudia Altamirano, Karen Dubois-Camacho, and Maria Carmen Molina

Subjects

MICA, SNP, miRNA, post-transcriptional regulation, allelic variation, 3′UTR, Genetics, QH426-470

Abstract

MicroRNAs (miRNAs) are small non-coding RNAs that participate as powerful genetic regulators. MiRNAs can interfere with cellular processes by interacting with a broad spectrum of target genes under physiological and pathological states, including cancer development and progression. Major histocompatibility complex major histocompatibility complex class I-related chain A (MICA) belongs to a family of proteins that bind the natural-killer group 2, member D (NKG2D) receptor on Natural Killer cells and other cytotoxic lymphocytes. MICA plays a crucial role in the host’s innate immune response to several disease settings, including cancer. MICA harbors various single nucleotide polymorphisms (SNPs) located in its 3′-untranslated region (3′UTR), a characteristic that increases the complexity of MICA regulation, favoring its post-transcriptional modulation by miRNAs under physiological and pathological conditions. Here, we conducted an in-depth analysis of MICA 3′UTR sequences according to each MICA allele described to date using NCBI database. We also systematically evaluated interactions between miRNAs and their putative targets on MICA 3′UTR containing SNPs using in silico analysis. Our in silico results showed that MICA SNPs rs9266829, rs 1880, and rs9266825, located in the target sequence of miRNAs hsa-miR-106a-5p, hsa-miR-17-5p, hsa-miR-20a-5p, hsa-miR-20b-5p, hsa-miR-93, hsa-miR-1207.5p, and hsa-miR-711 could modify the binding free energy between −8.62 and −18.14 kcal/mol, which may affect the regulation of MICA expression. We believe that our results may provide a starting point for further exploration of miRNA regulatory effects depending on MICA allelic variability; they may also be a guide to conduct miRNA in silico analysis for other highly polymorphic genes.

Published

2023

20. Effects of Combinations of Untranslated-Region Sequences on Translation of mRNA.

Author

Kirshina, Anna, Vasileva, Olga, Kunyk, Dmitry, Seregina, Kristina, Muslimov, Albert, Ivanov, Roman, and Reshetnikov, Vasiliy

Subjects

*MESSENGER RNA, *GENE expression, *LUCIFERASES, *PROTEIN expression, *GENE therapy, *BIOLUMINESCENCE

Abstract

mRNA-based therapeutics have been found to be a promising treatment strategy in immunotherapy, gene therapy, and cancer treatments. Effectiveness of mRNA therapeutics depends on the level and duration of a desired protein's expression, which is determined by various cis- and trans-regulatory elements of the mRNA. Sequences of 5′ and 3′ untranslated regions (UTRs) are responsible for translational efficiency and stability of mRNA. An optimal combination of the regulatory sequences allows researchers to significantly increase the target protein's expression. Using both literature data and previously obtained experimental data, we chose six sequences of 5′UTRs (adenoviral tripartite leader [TPL], HBB, rabbit β-globin [Rabb], H4C2, Moderna, and Neo2) and five sequences of 3′UTRs (mtRNR-EMCV, mtRNR-AES, mtRNR-mtRNR, BioNTech, and Moderna). By combining them, we constructed 30 in vitro transcribed RNAs encoding firefly luciferase with various combinations of 5′- and 3′UTRs, and the resultant bioluminescence was assessed in the DC2.4 cell line at 4, 8, 24, and 72 h after transfection. The cellular data enabled us to identify the best seven combinations of 5′- and 3′UTRs, whose translational efficiency was then assessed in BALB/c mice. Two combinations of 5′- and 3′UTRs (5′Rabb-3′mtRNR-EMCV and 5′TPL-3′Biontech) led to the most pronounced increase in the luciferase amount in the in vivo experiment in mice. Subsequent analysis of the stability of the mRNA indicated that the increase in luciferase expression is explained primarily by the efficiency of translation, not by the number of RNA molecules. Altogether, these findings suggest that 5′UTR-and-3′UTR combinations 5′Rabb-3′mtRNR- EMCV and 5′TPL-3′Biontech lead to high expression of target proteins and may be considered for use in preventive and therapeutic modalities based on mRNA. [ABSTRACT FROM AUTHOR]

Published

2023

21. 3'UTR of ALV-J can affect viral replication through promoting transcription and mRNA nuclear export.

Author

Moru Xu, Kun Qian, Hongxia Shao, Yongxiu Yao, Nair, Venugopal, Jianqiang Ye, and Aijian Qin

Subjects

*VIRAL replication, *MESSENGER RNA, *AVIAN leukosis, *LIFE cycles (Biology), *LIVER cells

Abstract

3' Untranslated regions (3'UTRs) play a crucial role in gene transcription and post-transcriptional regulation. During the past 30 years, subgroup J avian leukosis virus (ALV-J) had accumulated large-scale mutations in 3'UTRs of their proviral genome. In this study, we summarize five kinds of mutant 3'UTRs in ALV-J and analyzed their potential functions. Results indicated that ALV-J strains containing different 3'UTRs showed different replication ability, while this divergence is tissue preferential, especially in chicken embryonic liver cells and chicken endothelial cells. All 3'UTRs can assist intron-containing viral mRNA nuclear export, with no salient differences among the five forms. The half-life of ALV-J mRNA is not influenced by different 3'UTRs. However, 3'UTRs can drastically boost mRNA transcription in a cell-specific manner. These different 3'UTRs can promote foreign genes expression. Our results provide novel insight into the pathogenicity and life cycle of ALV-J. [ABSTRACT FROM AUTHOR]

Published

2023

22. Versatile RNA: overlooked gems of the transcriptome.

Author

Erdem, Murat, Cicek, Mustafa, and Erson‐Bensan, Ayse Elif

Subjects

*TRANSCRIPTOMES, *RNA, *NON-coding RNA, *FLEXIBLE structures, *RNA metabolism, *QUADRUPLEX nucleic acids

Abstract

The critical role of RNA, its use and targetability concerning different aspects of human health are gaining more attention because our understanding of the versatility of RNA has dramatically evolved over the last decades. We now appreciate that RNA is far more critical than a messenger molecule and possesses many complicated functions. As a multifunctional molecule with its sequence, flexible structures and enzymatic abilities, RNA is genuinely powerful. Mammalian transcriptomes consist of a dynamically regulated plethora of coding and noncoding RNA types. However, some aspects of RNA metabolism remain to be explored. In this Viewpoint, we focus on the transcriptome's unconventional and possibly overlooked aspects to emphasize the importance of RNA in mammalian systems. [ABSTRACT FROM AUTHOR]

Published

2023

23. HLA‐G 3′UTR haplotype analyses in HCV infection and HCV‐derived cirrhosis, hepatocellular carcinoma and fibrosis.

Author

Oliveira Correa, Julio Daimar, Zambra, Francis Maria Báo, Michita, Rafael Tomoya, Álvares‐da‐Silva, Mário Reis, Simon, Daniel, and Chies, José Artur Bogo

Subjects

*HISTOCOMPATIBILITY class I antigens, *HAPLOTYPES, *HEPATOCELLULAR carcinoma, *CIRRHOSIS of the liver, *HEPATIC fibrosis

Abstract

Hepatitis C virus (HCV) infection is a major cause of chronic liver disease. Chronic HCV infection is also an important cause of hepatic fibrosis, cirrhosis and hepatocellular carcinoma (HCC). HCV has the capacity to evade immune surveillance by altering the host immune response. Moreover, variations in immune‐related genes can lead to differential susceptibility to HCV infection as well as interfere on the susceptibility to the development of hepatic fibrosis, cirrhosis and HCC. The human leucocyte antigen G (HLA‐G) gene codes for an immunomodulatory protein known to be expressed in the maternal–foetal interface and in immune‐privileged tissues. The HLA‐G 3′ untranslated region (3′UTR) is important for mRNA stability, and variants in this region are known to impact gene expression. Studies, mainly focusing in a 14 bp insertion/deletion polymorphism, have correlated HLA‐G 3′UTR with susceptibility to viral infections, but other polymorphic variants in the HLA‐G 3′UTR might also affect HCV infection as they are inherited as haplotypes. The present study evaluated HLA‐G 3′UTR polymorphisms and performed linkage disequilibrium test and haplotype assembly in 286 HCV infected patients who have developed fibrosis, cirrhosis or HCC, as well as in 129 healthy control subjects. Haplotypes UTR‐1, UTR‐2 and UTR‐3 were the most observed in HCV+ patients, in the frequencies of 0.276, 0.255 and 0.121, respectively. No statistically significant difference was observed between HCV+ and control subjects, even when patients were grouped according to outcome (HCC, cirrhosis or fibrosis). Despite that, some trends in the results were observed, and therefore, we cannot rule out the possibility that variants associated to high HLA‐G expression can be involved in HCV infection susceptibility. [ABSTRACT FROM AUTHOR]

Published

2023

24. Members of the CUGBP Elav‐like family of RNA‐binding proteins are expressed in distinct populations of primary sensory neurons.

Author

Grlickova‐Duzevik, Eliza, Reimonn, Thomas M., Michael, Merilla, Tian, Tina, Owyoung, Jordan, McGrath‐Conwell, Aidan, Neufeld, Peter, Mueth, Madison, Molliver, Derek C., Ward, Patricia Jillian, and Harrison, Benjamin J.

Abstract

Primary sensory dorsal root ganglia (DRG) neurons are diverse, with distinct populations that respond to specific stimuli. Previously, we observed that functionally distinct populations of DRG neurons express mRNA transcript variants with different 3′ untranslated regions (3′UTRs). 3′UTRs harbor binding sites for interaction with RNA‐binding proteins (RBPs) for transporting mRNAs to subcellular domains, modulating transcript stability, and regulating the rate of translation. In the current study, analysis of publicly available single‐cell RNA‐sequencing data generated from adult mice revealed that 17 3′UTR‐binding RBPs were enriched in specific populations of DRG neurons. This included four members of the CUG triplet repeat (CUGBP) Elav‐like family (CELF): CELF2 and CELF4 were enriched in peptidergic, CELF6 in both peptidergic and nonpeptidergic, and CELF3 in tyrosine hydroxylase‐expressing neurons. Immunofluorescence studies confirmed that 60% of CELF4+ neurons are small‐diameter C fibers and 33% medium‐diameter myelinated (likely Aδ) fibers and showed that CELF4 is distributed to peripheral termini. Coexpression analyses using transcriptomic data and immunofluorescence revealed that CELF4 is enriched in nociceptive neurons that express GFRA3, CGRP, and the capsaicin receptor TRPV1. Reanalysis of published transcriptomic data from macaque DRG revealed a highly similar distribution of CELF members, and reanalysis of single‐nucleus RNA‐sequencing data derived from mouse and rat DRG after sciatic injury revealed differential expression of CELFs in specific populations of sensory neurons. We propose that CELF RBPs may regulate the fate of mRNAs in populations of nociceptors, and may play a role in pain and/or neuronal regeneration following nerve injury. [ABSTRACT FROM AUTHOR]

Published

2023

25. A-to-I RNA editing shows dramatic up-regulation in osteosarcoma and broadly regulates tumor-related genes by altering microRNA target regions.

Author

Ge, Fuqun, Cao, Xinyue, and Jiang, Yankai

Abstract

A-to-I RNA editing is a prevalent type of RNA modification in animals. The dysregulation of RNA editing has led to multiple human cancers. However, the role of RNA editing has never been studied in osteosarcoma, a complex bone cancer with unknown molecular basis. We retrieved the RNA-sequencing data from 24 primary osteosarcoma patients and 3 healthy controls. We systematically profiled the RNA editomes in these samples and quantitatively identified reliable differential editing sites (DES) between osteosarcoma and normal samples. RNA editing efficiency is dramatically increased in osteosarcoma, presumably due to the significant up-regulation of editing enzymes ADAR1 and ADAR2. Up-regulated DES in osteosarcoma are enriched in 3'UTRs. Strikingly, such 3'UTR sites are further enriched in microRNA binding regions of gene EMP2 and other oncogenes, abolishing the microRNA suppression on target genes. Accordingly, the expression of these tumor-promoting genes is elevated in osteosarcoma. There might be an RNA editing-dependent pathway leading to osteosarcoma. We expanded our knowledge on the potential roles of RNA editing in oncogenesis. Based on these molecular features, our work is valuable for future prognosis and diagnosis of osteosarcoma. [ABSTRACT FROM AUTHOR]

Published

2023

26. An updated C. elegans nuclear body muscle transcriptome for studies in muscle formation and function

Author

Anna L. Schorr, Alejandro Felix Mejia, Martina Y. Miranda, and Marco Mangone

Subjects

miRNAs, 3′UTR, Body muscle tissue, Interactome, C. elegans, Diseases of the musculoskeletal system, RC925-935

Abstract

Abstract The body muscle is an important tissue used in organisms for proper viability and locomotion. Although this tissue is generally well studied and characterized, and many pathways have been elucidated throughout the years, we still lack a comprehensive understanding of its transcriptome and how it controls muscle development and function. Here, we have updated a nuclear FACS sorting-based methodology to isolate and sequence a high-quality muscle transcriptome from Caenorhabditis elegans mixed-stage animals. We have identified 2848 muscle-specific protein-coding genes, including 78 transcription factors and 206 protein-coding genes containing an RNA binding domain. We studied their interaction network, performed a detailed promoter analysis, and identified novel muscle-specific cis-acting elements. We have also identified 16 high-quality muscle-specific miRNAs, studied their function in vivo using fluorochrome-based analyses, and developed a high-quality C. elegans miRNA interactome incorporating other muscle-specific datasets produced by our lab and others. Our study expands our understanding of how muscle tissue functions in C. elegans and in turn provides results that can in the future be applied to humans to study muscular-related diseases.

Published

2023

27. Association of (TTTC)n repeat polymorphism in 3'UTR of leptin gene with essential hypertension.

Author

Subarathi, M., Lauvanya, M., Priya, D. Gayathri, and Yogeswari, V.

Subjects

*ESSENTIAL hypertension, *LEPTIN, *HYPERTENSION, *POLYMERASE chain reaction, *BLOOD pressure, *GENE targeting

Abstract

Background: Leptin, an adipokine known for its anti obesity action also has a direct effect in maintaining blood pressure of an individual. Many studies have proposed the significant relation of high plasma leptin levels with high blood pressure. A significant association was found between a tetranucleotide repeat polymorphism (TTTC)n in the 3'UTR of leptin gene with essential hypertension in several populations. So we wanted to conduct a study to know the relationship of (TTTC)n repeat polymorphism in 3'UTR of Leptin gene with Essential hypertension in our population and its relation to serum leptin levels. Methods: A case-control study was done in our tertiary care hospital for one and a half years. Polymerase chain reaction was carried out and the products were visualized after running in 2% agarosegel electrophoresis. The alleles of this tetranucleotide polymorphism were classified as shorter form-class I and longer form class-II. Serum leptin levels were measured by ELISA. Result: It was found that Class I allele was more frequent in hypertensives when compared to controls(p<0.001). Class I/I genotype had significant association with essential hypertension even after adjusting for BMI(p<0.000). The difference in serum leptin levels between hypertensives and apparently healthy controls in our study was statistically significant even after adjusting for influence of obesity (p=0.015). This difference was in line with many other studies. However we could not find a significant association of serum leptin levels with this tetranucleotide repeat polymorphism. Conclusion: We found a significant association of (TTTC)n repeat polymorphism in 3'UTR of Leptin gene with Essential hypertension in this study. [ABSTRACT FROM AUTHOR]

Published

2023

28. Differential impact of BRAFV600E isoforms on tumorigenesis in a zebrafish model of melanoma.

Author

De Paolo, Raffaella, Sarti, Samanta, Bernardi, Sara, Cucco, Francesco, Tavosanis, Andrea, Pitto, Letizia, and Poliseno, Laura

Subjects

*BRACHYDANIO, *MELANOMA, *AMINO acid sequence, *NEOPLASTIC cell transformation, *CANCER cells, *NEVUS

Abstract

BRAFV600E comes as two main splicing variants. The well-studied ref isoform and the recently discovered X1 isoform are co-expressed in cancer cells and differ in terms of 3'UTR length and sequence, as well as C-term protein sequence. Here, we use a melanoma model in zebrafish to study the role played by each isoform in larval pigmentation, nevi formation, and their progression into melanoma tumours. We show that both BRAFV600E-ref and BRAFV600E-X1 proteins promote larval pigmentation and nevi formation, while melanoma-free survival curves performed in adult fish indicate that BRAFV600E-ref protein is a much stronger melanoma driver that BRAFV600E-X1 protein. Crucially, we also show that the presence of the 3'UTR suppresses the effect of ref protein. Our data highlight the necessity to undertake a systematic study of BRAFV600E isoforms, in order to uncover the full spectrum of their kinase-(in)dependent and coding-(in)dependent functions, hence to develop more informed strategies for therapeutic targeting. [ABSTRACT FROM AUTHOR]

Published

2023

29. Pro-inflammatory polarization and colorectal cancer modulate alternative and intronic polyadenylation in primary human macrophages.

Author

Wilton, Joana, Lopes de Mendonça, Filipa, Pereira-Castro, Isabel, Tellier, Michael, Takayuki Nojima, Costa, Angela M., Freitas, Jaime, Murphy, Shona, Oliveira, Maria Jose, Proudfoot, Nicholas J., and Moreira, Alexandra

Subjects

GENETIC regulation, IMMUNOREGULATION, COLORECTAL cancer, MACROPHAGES, HEREDITARY nonpolyposis colorectal cancer, GENE expression

Abstract

Introduction: Macrophages are essential cells of the immune system that alter their inflammatory profile depending on their microenvironment. Alternative polyadenylation in the 3'UTR (3'UTR-APA) and intronic polyadenylation (IPA) are mechanisms that modulate gene expression, particularly in cancer and activated immune cells. Yet, how polarization and colorectal cancer (CRC) cells affect 3'UTR-APA and IPA in primary human macrophages was unclear. Methods: In this study, we isolated primary human monocytes from healthy donors, differentiated and polarized them into a pro-inflammatory state and performed indirect co-cultures with CRC cells. ChrRNA-Seq and 3'RNA-Seq was performed to quantify gene expression and characterize new 3'UTR-APA and IPA mRNA isoforms. Results: Our results show that polarization of human macrophages from naïve to a pro-inflammatory state causes a marked increase of proximal polyA site selection in the 3'UTR and IPA events in genes relevant to macrophage functions. Additionally, we found a negative correlation between differential gene expression and IPA during pro-inflammatory polarization of primary human macrophages. As macrophages are abundant immune cells in the CRC microenvironment that either promote or abrogate cancer progression, we investigated how indirect exposure to CRC cells affects macrophage gene expression and 3'UTR-APA and IPA events. Co-culture with CRC cells alters the inflammatory phenotype of macrophages, increases the expression of protumoral genes and induces 3'UTR-APA alterations. Notably, some of these gene expression differences were also found in tumor-associated macrophages of CRC patients, indicating that they are physiologically relevant. Upon macrophage pro-inflammatory polarization, SRSF12 is the pre-mRNA processing gene that is most upregulated. After SRSF12 knockdown in M1 macrophages there is a global downregulation of gene expression, in particular in genes involved in gene expression regulation and in immune responses. Discussion: Our results reveal new 3'UTR-APA and IPA mRNA isoforms produced during pro-inflammatory polarization of primary human macrophages and CRC co-culture that may be used in the future as diagnostic or therapeutic tools. Furthermore, our results highlight a function for SRSF12 in pro-inflammatory macrophages, key cells in the tumor response. [ABSTRACT FROM AUTHOR]

Published

2023

30. Folylpolyglutamate synthetase mRNA G-quadruplexes regulate its cell protrusion localization and enhance a cancer cell invasive phenotype upon folate repletion

Author

Michal Stark, May Levin, Igor Ulitsky, and Yehuda G. Assaraf

Subjects

Folylpolyglutamate synthetase, 3′UTR, G-quadruplex, Folic acid, RNA transport, Cell protrusions, Biology (General), QH301-705.5

Abstract

Abstract Background Folates are crucial for the biosynthesis of nucleotides and amino acids, essential for cell proliferation and development. Folate deficiency induces DNA damage, developmental defects, and tumorigenicity. The obligatory enzyme folylpolyglutamate synthetase (FPGS) mediates intracellular folate retention via cytosolic and mitochondrial folate polyglutamylation. Our previous paper demonstrated the association of the cytosolic FPGS (cFPGS) with the cytoskeleton and various cell protrusion proteins. Based on these recent findings, the aim of the current study was to investigate the potential role of cFPGS at cell protrusions. Results Here we uncovered a central role for two G-quadruplex (GQ) motifs in the 3′UTR of FPGS mediating the localization of cFPGS mRNA and protein at cell protrusions. Using the MBSV6-loop reporter system and fluorescence microscopy, we demonstrate that following folate deprivation, cFPGS mRNA is retained in the endoplasmic reticulum, whereas upon 15 min of folate repletion, this mRNA is rapidly translocated to cell protrusions in a 3′UTR- and actin-dependent manner. The actin dependency of this folate-induced mRNA translocation is shown by treatment with Latrunculin B and inhibitors of the Ras homolog family member A (RhoA) pathway. Upon folate repletion, the FPGS 3′UTR GQs induce an amoeboid/mesenchymal hybrid cell phenotype during migration and invasion through a collagen gel matrix. Targeted disruption of the 3′UTR GQ motifs by introducing point mutations or masking them by antisense oligonucleotides abrogated cell protrusion targeting of cFPGS mRNA. Conclusions Collectively, the GQ motifs within the 3′UTR of FPGS regulate its transcript and protein localization at cell protrusions in response to a folate cue, inducing cancer cell invasive phenotype. These novel findings suggest that the 3′UTR GQ motifs of FPGS constitute an attractive druggable target aimed at inhibition of cancer invasion and metastasis.

Published

2023

31. Genome-wide mutation frequency variation among SARS-CoV-2 variants and its effects on the untranslated regions

Author

Chaurasia, Rajashree and Ghose, Udayan

Published

2024

32. The Interplay Between the Transcriptomics and Proteomics Profiles

Author

Teibo, John Oluwafemi, Silvestrini, Virgínia Campos, Vargas, Alessandra P., Lanfredi, Guilherme Pauperio, Faça, Vítor Marcel, and Passos, Geraldo A., editor

Published

2022

33. Alternative Splicing of Pre-messenger RNA

Author

Arfelli, Vanessa Cristina, Archangelo, Leticia Fröhlich, and Passos, Geraldo A., editor

Published

2022

34. Genetic Variants and Their Putative Effects on microRNA-Seed Sites: Characterization of the 3′ Untranslated Region of Genes Associated with Temperament.

Author

Ruiz-De-La-Cruz, Gilberto, Sifuentes-Rincón, Ana María, Casas, Eduardo, Paredes-Sánchez, Francisco Alejandro, Parra-Bracamonte, Gaspar Manuel, Riley, David G., Perry, George A., Welsh Jr., Thomas H., and Randel, Ronald D.

Subjects

*GENETIC variation, *CATTLE genetics, *ZEBUS, *SINGLE nucleotide polymorphisms, *GENETIC regulation, *TEMPERAMENT

Abstract

The 3′ untranslated region has an important role in gene regulation through microRNAs, and it has been estimated that microRNAs regulate up to 50% of coding genes in mammals. With the aim of allelic variant identification of 3′ untranslated region microRNA seed sites, the 3′ untranslated region was searched for seed sites of four temperament-associated genes (CACNG4, EXOC4, NRXN3, and SLC9A4). The microRNA seed sites were predicted in the four genes, and the CACNG4 gene had the greatest number with 12 predictions. To search for variants affecting the predicted microRNA seed sites, the four 3′ untranslated regions were re-sequenced in a Brahman cattle population. Eleven single nucleotide polymorphisms were identified in the CACNG4, and eleven in the SLC9A4. Rs522648682:T>G of the CACNG4 gene was located at the predicted seed site for bta-miR-191. Rs522648682:T>G evidenced an association with both exit velocity (p = 0.0054) and temperament score (p = 0.0097). The genotype TT had a lower mean exit velocity (2.93 ± 0.4 m/s) compared with the TG and GG genotypes (3.91 ± 0.46 m/s and 3.67 ± 0.46 m/s, respectively). The allele associated with the temperamental phenotype antagonizes the seed site, disrupting the bta-miR-191 recognition. The G allele of CACNG4-rs522648682 has the potential to influence bovine temperament through a mechanism associated with unspecific recognition of bta-miR-191. [ABSTRACT FROM AUTHOR]

Published

2023

35. The + 3010/C single nucleotide polymorphism (rs1710) at the HLA-G 3′ untranslated region is associated with a short transcript exhibiting a deletion of 92 nucleotides.

Author

Castelli, Erick C., Paes, Gabriela Sato, da Silva, Isabelle Mira, Moreau, Philippe, and Donadi, Eduardo A.

Subjects

*SINGLE nucleotide polymorphisms, *HISTOCOMPATIBILITY class I antigens, *ALTERNATIVE RNA splicing, *HAPLOTYPES, *NUCLEOTIDES

Abstract

The physiological expression of HLA-G is mainly observed in the placenta, playing an essential role in maternal–fetal tolerance. Among the HLA-G mRNA alternative transcripts, the one lacking 92 bases at the HLA-G 3′ untranslated region (3′UTR), the 92bDel transcript, is more stable, is associated with increased HLA-G soluble levels, and was observed in individuals presenting a 14 bp insertion (14 bp+) at the 3′UTR. We investigated the presence of the 92bDel transcript in placenta samples, correlating its expression levels with the HLA-G polymorphisms at the 3′UTR. The 14 bp+ allele correlates with the presence of the 92bDel transcript. However, the polymorphism triggering this alternative splicing is the + 3010/C allele (rs1710, allele C). Most 14 bp+ haplotypes (UTR-2/-5/-7) present allele + 3010/C. However, 14 bp− haplotypes such as UTR-3 are also associated with + 3010/C, and the 92bDel transcript can be detected in homozygous samples for the 14 bp- allele carrying at least one copy of UTR-3. The UTR-3 haplotype is associated with alleles G*01:04 and the HLA-G lineage HG0104, which is a high-expressing lineage. The only HLA-G lineage that is not likely to produce this transcript is HG010101, associated with the + 3010/G allele. This functional difference may be advantageous, considering the high worldwide frequency of the HG010101 lineage. Therefore, HLA-G lineages are functionally distinct regarding the 92bDel transcript expression, and the 3010/C allele triggers the alternative splicing that produces this shorter and more stable transcript. [ABSTRACT FROM AUTHOR]

Published

2023

36. An updated C. elegans nuclear body muscle transcriptome for studies in muscle formation and function.

Author

Schorr, Anna L., Mejia, Alejandro Felix, Miranda, Martina Y., and Mangone, Marco

Subjects

*CAENORHABDITIS elegans, *TRANSCRIPTOMES, *MUSCLE growth, *TRANSCRIPTION factors, *MICRORNA, *GOLGI apparatus

Abstract

The body muscle is an important tissue used in organisms for proper viability and locomotion. Although this tissue is generally well studied and characterized, and many pathways have been elucidated throughout the years, we still lack a comprehensive understanding of its transcriptome and how it controls muscle development and function. Here, we have updated a nuclear FACS sorting-based methodology to isolate and sequence a high-quality muscle transcriptome from Caenorhabditis elegans mixed-stage animals. We have identified 2848 muscle-specific protein-coding genes, including 78 transcription factors and 206 protein-coding genes containing an RNA binding domain. We studied their interaction network, performed a detailed promoter analysis, and identified novel muscle-specific cis-acting elements. We have also identified 16 high-quality muscle-specific miRNAs, studied their function in vivo using fluorochrome-based analyses, and developed a high-quality C. elegans miRNA interactome incorporating other muscle-specific datasets produced by our lab and others. Our study expands our understanding of how muscle tissue functions in C. elegans and in turn provides results that can in the future be applied to humans to study muscular-related diseases. [ABSTRACT FROM AUTHOR]

Published

2023

37. A variant rs6214 within IGF-1 confers risk for ulcerative colitis in Chinese Han populations.

Author

Wang, Huiping, Wang, Jin, Geng, Chunsong, Wang, Cong, Gu, Rongrong, and Zhu, Zhansheng

Subjects

*ULCERATIVE colitis, *ONE-way analysis of variance, *GENETIC models, *LOGISTIC regression analysis, *CARDIOVASCULAR diseases, *ODDS ratio

Abstract

Insulin growth factor-1 (IGF-1) has been found to correlate with various diseases such as cancer and cardiovascular diseases including ulcerative colitis (UC). The present study aimed to investigate the plausible association of rs6214 (C > T) within IGF-1 and UC susceptibility in Chinese Han populations. A total of 977 UC patients and 1029 healthy controls were enrolled, and rs6214 was genotyped with PCR and direct sequencing on the ABI 3730XL DNA analyzer platform. Logistic regression analysis was applied for the correlation of rs6214 and UC susceptibility via calculation of odds ratio (OR) with a 95% confidence interval (95% CI) adjusted for age and sex under different genetic models. The difference of clinical parameters between genotypes was measured by one-way analysis of variance (ANOVA). Additional functional assays were conducted to establish the probable relationship. The results indicated that the T allele of rs6214 showed roughly 37% greater risk for UC risk in the additive model (OR = 1.37, 95% CI = 1.21–1.55, P < 0.000001) when compared with C allele carriers, and the pattern was similar in other three genetic models. Further stratified analysis suggested that the association was particularly noteworthy in UC patients with extensive colitis and severe condition. Moreover, the blood level of IGF-1 was downregulated in UC patients, and the mRNA level was lower in T allele carriers in rectal tissues of UC cases. Additional luciferase assay demonstrated that rs6214 regulates IGF-1 expression via promoting miR-2053. Collectively, rs6214 increased UC susceptibility and suppresses IGF-1 expression by enhancing miR-2053 binding. The current findings provided evidence that rs6214 is a promising biomarker for UC prediction and prognosis. [ABSTRACT FROM AUTHOR]

Published

2023

38. Highlighting of the interactions of MYD88 and NFKB1 SNPs in rats resistant to decompression sickness: toward an autoimmune response

Author

Nicolas Vallée, Emmanuel Dugrenot, Anne-Virginie Desruelle, Simone Richard, Stéphane Coupé, Céline Ramdani, Régis Guieu, Jean-Jacques Risso, Sandrine Gaillard, and François Guerrero

Subjects

3′UTR, 5′UTR, autoimmune, decompression sickness, dive, hyperoxia (oxygen), Physiology, QP1-981

Abstract

Decompression sickness (DCS) with neurological disorders includes an inappropriate inflammatory response which degenerates slowly, even after the disappearance of the bubbles. There is high inter-individual variability in terms of the occurrence of DCS that could have been mastered by the selection and then the breeding of DCS-resistant rats. We hypothesized the selection of single-nucleotide polymorphisms (SNPs) linked to autoimmunity operated upon a generation of a DCS-resistant strain of rats. We used the candidate gene approach and targeted SNPs linked to the signaling cascade that directly regulates inflammation of innate immunity transiting by the Toll-like receptors. Twenty candidate SNPs were investigated in 36 standard rats and 33 DCS-resistant rats. For the first time, we identify a diplotype (i.e., with matched haplotypes)—when coinherited—that strengthens protection against DCS, which is not strictly homozygous and suggests that a certain tolerance may be considered. We deduced an ideal haplotype of six variants from it (MyD88_50-T, _49-A, _97-C coupled to NFKB_85-T, _69-T, _45-T) linked to the resistant phenotype. Four among the six identified variants are located in pre- and/or post-transcriptional areas regulating MyD88 or NFKB1 expression. Because of missense mutations, the other two variants induce a structural change in the NFKB1 protein complex including one damage alteration according to the Missense3D algorithm. In addition to the MyD88/NFKB1 haplotype providing rats with a strong resistance to DCS, this also highlights the importance that the immune response, here linked to the genetic heritage, can have in the development of DCS and offer a new perspective for therapeutic strategies.

Published

2023

39. Pro-inflammatory polarization and colorectal cancer modulate alternative and intronic polyadenylation in primary human macrophages

Author

Joana Wilton, Filipa Lopes de Mendonça, Isabel Pereira-Castro, Michael Tellier, Takayuki Nojima, Angela M. Costa, Jaime Freitas, Shona Murphy, Maria Jose Oliveira, Nicholas J. Proudfoot, and Alexandra Moreira

Subjects

primary human macrophages, mRNA, alternative polyadenylation, cancer, RNA sequencing, intronic polyadenylation, 3'UTR, SRSF12, Immunologic diseases. Allergy, RC581-607

Abstract

IntroductionMacrophages are essential cells of the immune system that alter their inflammatory profile depending on their microenvironment. Alternative polyadenylation in the 3’UTR (3’UTR-APA) and intronic polyadenylation (IPA) are mechanisms that modulate gene expression, particularly in cancer and activated immune cells. Yet, how polarization and colorectal cancer (CRC) cells affect 3’UTR-APA and IPA in primary human macrophages was unclear.MethodsIn this study, we isolated primary human monocytes from healthy donors, differentiated and polarized them into a pro-inflammatory state and performed indirect co-cultures with CRC cells. ChrRNA-Seq and 3’RNA-Seq was performed to quantify gene expression and characterize new 3’UTR-APA and IPA mRNA isoforms.ResultsOur results show that polarization of human macrophages from naïve to a pro-inflammatory state causes a marked increase of proximal polyA site selection in the 3’UTR and IPA events in genes relevant to macrophage functions. Additionally, we found a negative correlation between differential gene expression and IPA during pro-inflammatory polarization of primary human macrophages. As macrophages are abundant immune cells in the CRC microenvironment that either promote or abrogate cancer progression, we investigated how indirect exposure to CRC cells affects macrophage gene expression and 3’UTR-APA and IPA events. Co-culture with CRC cells alters the inflammatory phenotype of macrophages, increases the expression of pro-tumoral genes and induces 3’UTR-APA alterations. Notably, some of these gene expression differences were also found in tumor-associated macrophages of CRC patients, indicating that they are physiologically relevant. Upon macrophage pro-inflammatory polarization, SRSF12 is the pre-mRNA processing gene that is most upregulated. After SRSF12 knockdown in M1 macrophages there is a global downregulation of gene expression, in particular in genes involved in gene expression regulation and in immune responses.DiscussionOur results reveal new 3’UTR-APA and IPA mRNA isoforms produced during pro-inflammatory polarization of primary human macrophages and CRC co-culture that may be used in the future as diagnostic or therapeutic tools. Furthermore, our results highlight a function for SRSF12 in pro-inflammatory macrophages, key cells in the tumor response.

Published

2023

40. Untranslated Region Sequences and the Efficacy of mRNA Vaccines against Tuberculosis

Author

Vasiliy Reshetnikov, Ilya Terenin, Galina Shepelkova, Vladimir Yeremeev, Semyon Kolmykov, Maxim Nagornykh, Elena Kolosova, Tatiana Sokolova, Olga Zaborova, Ivan Kukushkin, Alisa Kazakova, Dmitry Kunyk, Anna Kirshina, Olga Vasileva, Kristina Seregina, Ildus Pateev, Fedor Kolpakov, and Roman Ivanov

Subjects

5′UTR, 3′UTR, mRNA therapeutics, translation efficiency, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

mRNA vaccines have been shown to be effective in combating the COVID-19 pandemic. The amount of research on the use of mRNAs as preventive and therapeutic modalities has undergone explosive growth in the last few years. Nonetheless, the issue of the stability of mRNA molecules and their translation efficiency remains incompletely resolved. These characteristics of mRNA directly affect the expression level of a desired protein. Regulatory elements of RNA—5′ and 3′ untranslated regions (UTRs)—are responsible for translation efficiency. An optimal combination of the regulatory sequences allows mRNA to significantly increase the target protein’s expression. We assessed the translation efficiency of mRNA encoding of firefly luciferase with various 5′ and 3′UTRs in vitro on cell lines DC2.4 and THP1. We found that mRNAs containing 5′UTR sequences from eukaryotic genes HBB, HSPA1A, Rabb, or H4C2, or from the adenoviral leader sequence TPL, resulted in higher levels of luciferase bioluminescence 4 h after transfection of DC2.4 cells as compared with 5′UTR sequences used in vaccines mRNA-1273 and BNT162b2 from Moderna and BioNTech. mRNA containing TPL as the 5′UTR also showed higher efficiency (as compared with the 5′UTR from Moderna) at generating a T-cell response in mice immunized with mRNA vaccines encoding a multiepitope antigen. By contrast, no effects of various 5′UTRs and 3′UTRs were detectable in THP1 cells, suggesting that the observed effects are cell type specific. Further analyses enabled us to identify potential cell type-specific RNA-binding proteins that differ in landing sites within mRNAs with various 5′UTRs and 3′UTRs. Taken together, our data indicate high translation efficiency of TPL as a 5′UTR, according to experiments on DC2.4 cells and C57BL/6 mice.

Published

2024

41. Breast Cancer and miR-SNPs: The Importance of miR Germ-Line Genetics.

Author

Malhotra, Poonam, Read, Graham H, and Weidhaas, Joanne B

Subjects

3′UTR, breast cancer, miR-SNPs, polymorphism, predictive biomarkers

Abstract

Recent studies in cancer diagnostics have identified microRNAs (miRNAs) as promising cancer biomarkers. Single nucleotide polymorphisms (SNPs) in miRNA binding sites, seed regions, and coding sequences can help predict breast cancer risk, aggressiveness, response to stimuli, and prognosis. This review also documents significant known miR-SNPs in miRNA biogenesis genes and their effects on gene regulation in breast cancer, taking into account the genetic background and ethnicity of the sampled populations. When applicable, miR-SNPs are evaluated in the context of other patient factors, including mutations, hormonal status, and demographics. Given the power of miR-SNPs to predict patient cancer risk, prognosis, and outcomes, further study of miR-SNPs is warranted to improve efforts towards personalized medicine.

Published

2019

42. In vivo modulation of endogenous gene expression via CRISPR/Cas9-mediated 3’UTR editing

Author

Kärt Mätlik, Soophie Olfat, Mark Cary Cowlishaw, Eva Domenech Moreno, Saara Ollila, and Jaan-Olle Andressoo

Subjects

3'UTR, GDNF, Gene function, microRNAs, CRISPR/Cas9, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

The 3' untranslated regions (UTRs) modulate gene expression levels by regulating mRNA stability and translation. We previously showed that the replacement of the negative regulatory elements from the 3'UTR of glial cell line-derived neurotrophic factor (GDNF) resulted in increased endogenous GDNF expression while retaining its normal spatiotemporal expression pattern. Here, we have developed a methodology for the generation of in vivo hyper- and hypomorphic alleles via 3'UTR targeting using the CRISPR/Cas9 system. We demonstrate that CRISPR/Cas9-mediated excision of a long inhibitory sequence from Gdnf native 3'UTR in mouse zygotes increases the levels of endogenous GDNF with similar phenotypic alterations in embryonic kidney development as we described in GDNF constitutive and conditional hypermorphic mice. Furthermore, we show that CRISPR/Cas9-mediated targeting of 3’UTRs in vivo allows the modulation of the expression levels of two other morphogens, Gdf11 and Bdnf. Together, our work demonstrates the power of in vivo 3’UTR editing using the CRISPR/Cas9 system to create hyper- and hypomorphic alleles, suggesting wide applicability in studies on gene function and potentially, in gene therapy.

Published

2023

43. Folylpolyglutamate synthetase mRNA G-quadruplexes regulate its cell protrusion localization and enhance a cancer cell invasive phenotype upon folate repletion.

Author

Stark, Michal, Levin, May, Ulitsky, Igor, and Assaraf, Yehuda G.

Subjects

*QUADRUPLEX nucleic acids, *CANCER invasiveness, *CANCER cells, *MESSENGER RNA, *FOLIC acid, *PHENOTYPES, *GLUTAMINE synthetase, *TRANSFER RNA

Abstract

Background: Folates are crucial for the biosynthesis of nucleotides and amino acids, essential for cell proliferation and development. Folate deficiency induces DNA damage, developmental defects, and tumorigenicity. The obligatory enzyme folylpolyglutamate synthetase (FPGS) mediates intracellular folate retention via cytosolic and mitochondrial folate polyglutamylation. Our previous paper demonstrated the association of the cytosolic FPGS (cFPGS) with the cytoskeleton and various cell protrusion proteins. Based on these recent findings, the aim of the current study was to investigate the potential role of cFPGS at cell protrusions. Results: Here we uncovered a central role for two G-quadruplex (GQ) motifs in the 3′UTR of FPGS mediating the localization of cFPGS mRNA and protein at cell protrusions. Using the MBSV6-loop reporter system and fluorescence microscopy, we demonstrate that following folate deprivation, cFPGS mRNA is retained in the endoplasmic reticulum, whereas upon 15 min of folate repletion, this mRNA is rapidly translocated to cell protrusions in a 3′UTR- and actin-dependent manner. The actin dependency of this folate-induced mRNA translocation is shown by treatment with Latrunculin B and inhibitors of the Ras homolog family member A (RhoA) pathway. Upon folate repletion, the FPGS 3′UTR GQs induce an amoeboid/mesenchymal hybrid cell phenotype during migration and invasion through a collagen gel matrix. Targeted disruption of the 3′UTR GQ motifs by introducing point mutations or masking them by antisense oligonucleotides abrogated cell protrusion targeting of cFPGS mRNA. Conclusions: Collectively, the GQ motifs within the 3′UTR of FPGS regulate its transcript and protein localization at cell protrusions in response to a folate cue, inducing cancer cell invasive phenotype. These novel findings suggest that the 3′UTR GQ motifs of FPGS constitute an attractive druggable target aimed at inhibition of cancer invasion and metastasis. [ABSTRACT FROM AUTHOR]

Published

2023

44. Multiple Copies of microRNA Binding Sites in Long 3′UTR Variants Regulate Axonal Translation.

Author

Farberov, Luba, Ionescu, Ariel, Zoabi, Yazeed, Shapira, Guy, Ibraheem, Amjd, Azan, Yosi, Perlson, Eran, and Shomron, Noam

Subjects

*BINDING sites, *MICRORNA, *MOLECULAR motor proteins, *MOTOR neurons, *CELL imaging, *TRANSCRIPTOMES, *GENETIC translation, *PROTEIN stability

Abstract

Rapid responses to changes within subcellular compartments of highly polarized cells, such as neuron axons, depend on local translation and post-transcriptional regulation. The mechanism by which microRNAs (miRNAs) regulate this process is not fully understood. Here, using live cell imaging and RNA sequencing analysis, we demonstrated how miRNAs can differentially control hundreds of transcripts at the subcellular level. We demonstrated that the seed match length of the miRNA target-sequence regulates both mRNA stability and protein translation rates. While longer seed matches have an increased inhibitory effect, transcriptome analysis did not reveal differences in seed match length between axonal and somata mRNAs of motor neurons. However, mRNA variants with longer 3′UTR are enriched in axons and contain multiple repeats of specific miRNA target sequences. Finally, we demonstrated that the long 3′UTR mRNA variant of the motor protein Kif5b is enriched explicitly in motor neuron axons and contains multiple sequence repeats for binding miR-129-5p. This subsequently results in the differential post-transcriptional regulation of kif5b and its synthesis in axons. Thus, we suggest that the number of miRNA binding sites at the 3′UTR of the mRNA, rather than the miRNA seed match length, regulates the axonal transcriptome. [ABSTRACT FROM AUTHOR]

Published

2023

45. HLA-G 3'UTR polymorphism diplotypes and soluble HLA-G plasma levels impact cervical cancer susceptibility and prognosis.

Author

Jun Gan, Xing-Hong Di, Zi-Yi Yan, Yang-Fan Gao, and Hui-Hui Xu

Subjects

HISTOCOMPATIBILITY class I antigens, CERVICAL cancer, CANCER susceptibility, HLA histocompatibility antigens, IMMUNE checkpoint proteins, HUMAN carcinogenesis

Abstract

Background: Human leukocyte antigen G (HLA-G) is an immune checkpoint molecule with relevance in several cancers. The aim of this study was to evaluate the potential role of soluble HLA-G (sHLA-G), its genetic polymorphisms and its haplotype structure in the susceptibility and prognosis of primary cervical cancer in a Chinese Han population. Methods: We investigated sHLA-G plasma levels and 3' untranslated region (3'UTR) polymorphisms through ELISA and direct DNA sequencing, respectively, in cervical cancer patients (120 cases) and healthy control women (96 cases). The data were analyzed for associations using PowerMarker, Haploview, and GraphPad Prism. Results: In this study, 8 polymorphic sites, 16 haplotypes and 23 diplotypes in the HLA-G 3'UTR were identified in our study population. We observed that each pair of 8 polymorphic sites exhibited linkage disequilibrium. The heterozygote CT genotype at position +3422 (rs17875408) was more common in cervical cancer patients than in healthy women (OR=5.285, P<0.05). Haplotypes UTR-1, UTR-3, and UTR-7 accounted for more than 85% of both groups, but no significant difference was found. The frequency of the UTR-1/UTR-3 diplotype in patients was significantly higher than that in controls (P<0.05). In addition, we further observed that HLA-G 3'UTR polymorphisms may influence the sHLA-G plasma level in patients' peripheral blood, especially 14 bp Ins/Del (rs371194629) and +3142 C/G (rs1063320). A receiver operating characteristic (ROC) curve analysis showed that the sHLA-G level had good diagnostic performance in differentiating patients with cervical cancer from healthy women (AUC>0.7). Among patients, mean sHLA-G levels increased with increasing FIGO stages but were not related to the overall survival time. Conclusions: The results of the present study enhance our understanding of how HLA-G 3'UTR polymorphisms can influence the peripheral sHLA-G plasma level and play a key role in cervical carcinogenesis. This study further confirmed that sHLA-G may represent a novel plasma biomarker for the prognosis and potential therapeutic target of cervical cancer. [ABSTRACT FROM AUTHOR]

Published

2022

46. Regulatory variation within 3'UTR of STAT5A correlates with sudden cardiac death in Chinese populations.

Author

Yu, Huan, Guo, Yadong, Yang, Zhenzhen, Zhang, Qing, Xu, Jiabin, Yang, Qi, Qu, Yiling, Tan, Rui, Li, Lijuan, He, Yan, Li, Chengtao, Zhang, Suhua, Luo, Bin, and Gao, Yuzhen

Subjects

CARDIAC arrest, STAT proteins, SUDDEN death, GENE expression, GENETIC variation, AUTOPSY

Abstract

Definitive diagnosis to sudden cardiac death (SCD) is often challenging since the postmortem examination on SCD victims could hardly demonstrate an adequate cause of death. It is therefore important to uncover the inherited risk component to SCD. Signal transducer and activators of transcription 5 A (STAT5A) is a member of the STAT family and a transcription factor that is activated by many cell ligands and associated with various cardiovascular processes. In this study, we performed a systematic variant screening on the STAT5A to filter potential functional genetic variations. Based on the screening results, an insertion/deletion polymorphism (rs3833144) in 3'UTR of STAT5A was selected as the candidate variant. A total of 159 SCD cases and 668 SCD matched healthy controls was enrolled to perform a case-control study and evaluate the association between rs3833144 and SCD susceptibility in Chinese populations. Logistic regression analysis showed that the deletion allele of rs3833144 had significantly increased the SCD risk (odds ratio (OR) = 1.54; 95% confidence interval (CI) = 1.18–2.01; P = 0.000955). Further genotype-expression eQTL analysis showed that samples with deletion allele appeared to lower expression of STAT5A, and in silico prediction suggested the local 3 D structure changes of STAT5A mRNA caused by the variant. On the other hand, the bioinformatic analysis presented that promoters of RARA and PTGES3L-AARSD1 could interact with rs3833144, and eQTL analysis showed the higher expression of both genes in samples with deletion allele. Dual-luciferase activity assays also suggested the significant regulatory role of rs3833144 in gene transcription. Our current data thus suggested a possible involvement of rs3833144 to SCD predisposition in Chinese populations and rs3833144 with potential function roles may become a candidate marker for SCD diagnosis and prevention. [ABSTRACT FROM AUTHOR]

Published

2022

47. Hypoxia-Induced Downregulation of miR-29 in Renal Tumor Cells Affects Collagen IV Subunit Expression through Multiple Sites.

Author

Liu, Chuncheng, Liu, Linan, Bo, Jinlai, Lu, Xian, Qu, Donghui, Liu, Gehui, Jiang, Zhiyan, and Cai, Lu

Subjects

KIDNEY tumors, COLLAGEN, COMPLEMENTATION (Genetics), EXTRACELLULAR matrix, TUMOR growth, PESTE des petits ruminants, RENAL cell carcinoma

Abstract

Multiple tumor exacerbations and treatment procedures, such as extracellular matrix remodeling, metabolic reprogramming, immunological evasion, and resistance to chemotherapy and radiotherapy, are influenced by intratumoral hypoxia. It is becoming increasingly clear how hypoxia interacts with the extracellular matrix and how this affects the growth of cancer. We analyzed the published sequencing results of hypoxia-stressed mouse kidney tumor cells and found that the expression of miR-29b was significantly downregulated. There are several sites that are complementary to the miR-29 seed sequence in the 3' non-coding regions (3'UTRs) of various extracellular matrix-related genes, including collagen IV. We analyzed the sequences of the 3'UTRs of different subunits of collagen IV in different species and constructed the corresponding phylogenetic trees. We found that the 3'UTRs of Col4a1 and Col4a4 may have been subjected to particular evolutionary pressures. By cloning the 3'UTRs of collagen IV subunits into the psiCHECKTM-2 vector, we found that seven of the eight sites in the Col4a3–Col4a6 gene complementary to miR-29 were significantly repressed by miR-29a, b (except for the 7774–7781 of Col4a3 gene). The inhibitory efficiency of miR-29a, b on these seven sites was between 27% and 57%. The research on the regulation of miR-29 and extracellular matrix by hypoxia can provide a theoretical basis for tumor and fibrosis research and treatment. [ABSTRACT FROM AUTHOR]

Published

2022

48. Identification of functionally important miRNA targeted genes associated with child obesity trait in genome-wide association studies

Author

Melinda Song, Jiaqi Yu, Binze Li, Julian Dong, Jeslyn Gao, Lulu Shang, Xiang Zhou, and Yongsheng Bai

Subjects

GWAS, Variants, Child Obesity, 3’UTR, Functional Enrichment Analysis, Biotechnology, TP248.13-248.65, Genetics, QH426-470

Abstract

Abstract Background Genome-wide association studies (GWAS) have uncovered thousands of genetic variants that are associated with complex human traits and diseases. miRNAs are single-stranded non-coding RNAs. In particular, genetic variants located in the 3’UTR region of mRNAs may play an important role in gene regulation through their interaction with miRNAs. Existing studies have not been thoroughly conducted to elucidate 3’UTR variants discovered through GWAS. The goal of this study is to analyze patterns of GWAS functional variants located in 3’UTRs about their relevance in the network between hosting genes and targeting miRNAs, and elucidate the association between the genes harboring these variants and genetic traits. Methods We employed MIGWAS, ANNOVAR, MEME, and DAVID software packages to annotate the variants obtained from GWAS for 31 traits and elucidate the association between their harboring genes and their related traits. We identified variants that occurred in the motif regions that may be functionally important in affecting miRNA binding. We also conducted pathway analysis and functional annotation on miRNA targeted genes harboring 3’UTR variants for a trait with the highest percentage of 3’UTR variants occurring. Results The Child Obesity trait has the highest percentage of 3’UTR variants (75%). Of the 16 genes related to the Child Obesity trait, 5 genes (ETV7, GMEB1, NFIX, ZNF566, ZBTB40) had a significant association with the term DNA-Binding (p

Published

2022

49. Single Nucleotide Polymorphism in the 3’ Untranslated Region of PRKAA2 on Cardiometabolic Parameters in Type 2 Diabetes Mellitus Patients Who Received Metformin

Author

Virginia DM, Patramurti C, Fenty, Setiawan CH, Julianus J, Hendra P, and Susanto NAP

Subjects

prkaa2, rs857148, 3’utr, cardiometabolic, type 2 diabetes mellitus, Therapeutics. Pharmacology, RM1-950

Abstract

Dita Maria Virginia,1 Christine Patramurti,2 Fenty,1,3 Christianus Heru Setiawan,1 Jeffry Julianus,2 Phebe Hendra,1 Nicholas Adi Perdana Susanto3 1Department of Pharmacology and Clinical Pharmacy, Faculty of Pharmacy, Sanata Dharma University, Yogyakarta, Indonesia; 2Department of Pharmaceutical Analysis and Medicinal Chemistry, Faculty of Pharmacy, Sanata Dharma University, Yogyakarta, Indonesia; 3Bethesda Lempuyangwangi Hospital, Yogyakarta, IndonesiaCorrespondence: Dita Maria Virginia, Universitas Sanata Dharma, Mrican, Tromol Pos 29, Yogyakarta, 55281, Indonesia, Tel +62 274 513301, Fax +62 274 562383, Email virginia@usd.ac.idPurpose: This study aimed to explore the association of rs857148 A>C as 3ʹUTR variants with blood pressure, HbA1c profile, and lipid profiles as cardiometabolic parameters among patients with T2DM receiving metformin.Patients and Methods: This cross-sectional analytic research was conducted with 114 consecutively selected patients with T2DM. Polymerase chain reaction-restriction fragment length polymorphism was conducted to determine rs857148. A total of 108 patients fulfilled inclusion and exclusion criteria.Results: Genotype distribution agreed with the Hardy Weinberg Equation for Equilibrium (p> 0.05) but wildtype allele was found as the minor allele. Subjects with CC genotype and C allele had enhanced HbA1c levels (OR=7.12; 95% CI=1.05– 48.26; p=0.04; OR=1.66; 95% CI=1.06– 2.60; p=0.03, respectively). It was confirmed by dominant model whereas subjects with AA tended to have reduced HbA1c compared to AC+CC genotype (OR=0.15; 95% CI=0.02– 0.97; p=0.047). AC genotype had significant correlation to total cholesterol (OR=1.05; 95% CI=1.01– 1.10; p=0.03) compared to AA genotype.Conclusion: We conclude that polymorphism of rs87148, specifically CC genotype and C allele, has a significant association with HbA1c and total cholesterol after considering oral hypoglycemia agent dose, age, gender, and combination therapy, compared to AA genotype. Future studies that involve a larger sample population and more rigorous selection criteria are required.Keywords: PRKAA2, rs857148, 3ʹUTR, cardiometabolic, type 2 diabetes mellitus

Published

2022

50. Lung cancer cells expressing a shortened CDK16 3′UTR escape senescence through impaired miR‐485‐5p targeting

Author

Qi Jia, Baiyun Xie, Zhaozhao Zhao, Leihuan Huang, Gang Wei, and Ting Ni

Subjects

3′UTR, APA, cancer cell senescence, CDK16, miR‐485‐5p, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Inducing senescence in cancer cells is an emerging strategy for cancer therapy. The dysregulation and mutation of genes encoding cyclin‐dependent kinases (CDKs) have been implicated in various human cancers. However, whether CDK can induce cancer cell senescence remains poorly understood. We observed that CDK16 expression was high in multiple cancer types, including lung cancer, whereas various replicative senescence models displayed low CDK16 expression. CDK16 knockdown caused senescence‐associated phenotypes in lung cancer cell lines. Interestingly, the CDK16 3′ UTR was shortened in cancer and lengthened in senescence models, which was regulated by alternative polyadenylation (APA). The longer 3′UTR [using the distal polyA (pA) site] generated less protein than the shorter one (using the proximal pA site). Since microRNAs (miRNAs) usually bind to the 3′UTR of target genes to suppress their expression, we investigated whether miRNAs targeting the region between the shortened and longer 3′UTR are responsible for the reduced expression. We found that miR‐485‐5p targeted the 3′UTR between the distal and proximal pA site and caused senescence‐associated phenotypes by reducing protein production from the longer CDK16 transcript. Of note, CDK16 knockdown led to a reduced expression of MYC proto‐oncogene, bHLH transcription factor (MYC) and CD274 molecule (PD‐L1), which in turn enhanced the tumor‐suppressive effects of senescent cancer cells. The present study discovered that CDK16, whose expression is under the regulation of APA and miR‐485‐5p, is a potential target for prosenescence therapy for lung cancer.

Published

2022