Your search keyword '"circulating small RNAs"' showing total 9 results

1. 5'-YRNA fragments derived by processing of transcripts from specific YRNA genes and pseudogenes are abundant in human serum and plasma.

Author

Dhahbi, Joseph M., Spindler, Stephen R., Atamna, Hani, Boffelli, Dario, Mote, Patricia, and Martin, David I. K.

Subjects

*PSEUDOGENES, *NON-coding RNA, *SERUM, *EUKARYOTIC cells, *NUCLEOPROTEINS, *AUTOANTIGENS, *CONNECTIVE tissue diseases

Abstract

Small noncoding RNAs carry out a variety of functions in eukaryotic cells, and in multiple species they can travel between cells, thus serving as signaling molecules. In mammals multiple small RNAs have been found to circulate in the blood, although in most cases the targets of these RNAs, and even their functions, are not well understood. YRNAs are small (84-112 nt) RNAs with poorly characterized functions, best known because they make up part of the Ro ribonucleoprotein autoantigens in connective tissue diseases. In surveying small RNAs present in the serum of healthy adult humans, we have found YRNA fragments of lengths 27 nt and 30-33 nt, derived from the 5'-ends of specific YRNAs and generated by cleavage within a predicted internal loop. Many of the YRNAs from which these fragments are derived were previously annotated only as pseudogenes, or predicted informatically. These 5'-YRNA fragments make up a large proportion of all small RNAs (including miRNAs) present in human serum. They are also present in plasma, are not present in exosomes or microvesicles, and circulate as part of a complex with a mass between 100 and 300 kDa. Mouse serum contains far fewer 5'-YRNA fragments, possibly reflecting the much greater copy number of YRNA genes and pseudogenes in humans. The function of the 5'-YRNA fragments is at present unknown, but the processing and secretion of specific YRNAs to produce 5'-end fragments that circulate in stable complexes are consistent with a signaling function. [ABSTRACT FROM AUTHOR]

Published

2013

2. 5' tRNA halves are present as abundant complexes in serum, concentrated in blood cells, and modulated by aging and calorie restriction.

Author

Dhahbi, Joseph M., Spindler, Stephen R., Atamna, Hani, Yamakawa, Amy, Boffelli, Dario, Mote, Patricia, and Martin, David I. K.

Subjects

*NON-coding RNA, *TRANSFER RNA, *SERUM, *BLOOD cells, *GENE expression, *HEPARIN, *CITRATES, *NUCLEOPROTEINS

Abstract

Background: Small RNAs complex with proteins to mediate a variety of functions in animals and plants. Some small RNAs, particularly miRNAs, circulate in mammalian blood and may carry out a signaling function by entering target cells and modulating gene expression. The subject of this study is a set of circulating 30-33 nt RNAs that are processed derivatives of the 5' ends of a small subset of tRNA genes, and closely resemble cellular tRNA derivatives (tRFs, tiRNAs, half-tRNAs, 5' tRNA halves) previously shown to inhibit translation initiation in response to stress in cultured cells. Results: In sequencing small RNAs extracted from mouse serum, we identified abundant 5' tRNA halves derived from a small subset of tRNAs, implying that they are produced by tRNA type-specific biogenesis and/or release. The 5' tRNA halves are not in exosomes or microvesicles, but circulate as particles of 100-300 kDa. The size of these particles suggest that the 5' tRNA halves are a component of a macromolecular complex; this is supported by the loss of 5' tRNA halves from serum or plasma treated with EDTA, a chelating agent, but their retention in plasma anticoagulated with heparin or citrate. A survey of somatic tissues reveals that 5' tRNA halves are concentrated within blood cells and hematopoietic tissues, but scant in other tissues, suggesting that they may be produced by blood cells. Serum levels of specific subtypes of 5' tRNA halves change markedly with age, either up or down, and these changes can be prevented by calorie restriction. Conclusions: We demonstrate that 5' tRNA halves circulate in the blood in a stable form, most likely as part of a nucleoprotein complex, and their serum levels are subject to regulation by age and calorie restriction. They may be produced by blood cells, but their cellular targets are not yet known. The characteristics of these circulating molecules, and their known function in suppression of translation initiation, suggest that they are a novel form of signaling molecule. [ABSTRACT FROM AUTHOR]

Published

2013

3. The potential of circulating extracellular small RNAs (smexRNA) in veterinary diagnostics—Identifying biomarker signatures by multivariate data analysis

Author

Michael W. Pfaffl, Kirchner Benedikt, Spornraft Melanie, and Riedmaier Irmgard

Subjects

CLEN, treated group with clenbuterol-hydrochloride, Multivariate statistics, Veterinary medicine, Multivariate analysis, smexRNA, circulating extracellular small RNA, CON, control group, P + EB, treated group with steroid hormone implant: progesterone plus estradiol benzoate, lcsh:QR1-502, Small RNA-Sequencing, Piwi-interacting RNA, Biology, Proteomics, Bioinformatics, small RNA-Seq, small RNA-Sequencing, Biochemistry, lcsh:Microbiology, Biomarker signatures, Metabolomics, DA, discriminant analysis, Structural Biology, EU, European Union, exRNA, extracellular RNA, microRNA, miRNA, microRNA, Veterinary drug, Multivariate data analysis, Transcriptomics, Molecular Biology, lcsh:QH301-705.5, PCA, principal component analysis, Circulating small RNAs, PLS, partial least-squares projection, piRNA, PIWI-interacting small non-coding RNA, Veterinary diagnostics, rpm, reads per million, lcsh:Biology (General), Molecular Medicine, Biomarker (medicine), OPLS, orthogonal partial least-squares, Research Paper

Abstract

Worldwide growth and performance-enhancing substances are used in cattle husbandry to increase productivity. In certain countries however e.g., in the EU, these practices are forbidden to prevent the consumers from potential health risks of substance residues in food. To maximize economic profit, ‘black sheep‘ among farmers might circumvent the detection methods used in routine controls, which highlights the need for an innovative and reliable detection method. Transcriptomics is a promising new approach in the discovery of veterinary medicine biomarkers and also a missing puzzle piece, as up to date, metabolomics and proteomics are paramount. Due to increased stability and easy sampling, circulating extracellular small RNAs (smexRNAs) in bovine plasma were small RNA-sequenced and their potential to serve as biomarker candidates was evaluated using multivariate data analysis tools.After running the data evaluation pipeline, the proportion of miRNAs (microRNAs) and piRNAs (PIWI-interacting small non-coding RNAs) on the total sequenced reads was calculated. Additionally, top 10 signatures were compared which revealed that the readcount data sets were highly affected by the most abundant miRNA and piRNA profiles. To evaluate the discriminative power of multivariate data analyses to identify animals after veterinary drug application on the basis of smexRNAs, OPLS-DA was performed. In summary, the quality of miRNA models using all mapped reads for both treatment groups (animals treated with steroid hormones or the β-agonist clenbuterol) is predominant to those generated with combined data sets or piRNAs alone. Using multivariate projection methodologies like OPLS-DA have proven the best potential to generate discriminative miRNA models, supported by small RNA-Seq data. Based on the presented comparative OPLS-DA, miRNAs are the favorable smexRNA biomarker candidates in the research field of veterinary drug abuse.

Published

2015

4. Circulating small non-coding RNA signature in head and neck squamous cell carcinoma

Author

Stephen R. Spindler, Hani Atamna, Tomasz Kolenda, Joseph M. Dhahbi, Katarzyna Lamperska, Berta Victoria Martinez, Wojciech Golusiński, Paweł Golusiński, Yury O. Nunez Lopez, Lukasz Luczewski, and Michal M. Masternak

Subjects

Male, RNA, Untranslated, Somatic cell, Biology, Bioinformatics, medicine.disease_cause, circulating small RNAs, Deep sequencing, microRNA, medicine, Biomarkers, Tumor, Humans, tRNA halves, Aged, Neoplasm Staging, Mouth neoplasm, Squamous Cell Carcinoma of Head and Neck, Cancer, Middle Aged, Non-coding RNA, medicine.disease, Prognosis, Head and neck squamous-cell carcinoma, 3. Good health, microRNAs, stomatognathic diseases, Oncology, Head and Neck Neoplasms, Cancer research, Carcinoma, Squamous Cell, Female, Mouth Neoplasms, head and neck cancer, next-generation sequencing, Carcinogenesis, Research Paper

Abstract

The Head and Neck Squamous Cell Carcinoma (HNSCC) is the sixth most common human cancer, causing 350,000 individuals die worldwide each year. The overall prognosis in HNSCC patients has not significantly changed for the last decade. Complete understanding of the molecular mechanisms in HNSCC carcinogenesis could allow an earlier diagnosis and the use of more specific and effective therapies. In the present study we used deep sequencing to characterize small non-coding RNAs (sncRNAs) in serum from HNSCC patients and healthy donors. We identified, for the first time, a multi-marker signature of 3 major classes of circulating sncRNAs in HNSCC, revealing the presence of circulating novel and known miRNAs, and tRNA- and YRNA-derived small RNAs that were significantly deregulated in the sera of HNSCC patients compared to healthy controls. By implementing a triple-filtering approach we identified a subset of highly biologically relevant miRNA-mRNA interactions and we demonstrated that the same genes/pathways affected by somatic mutations in cancer are affected by changes in the abundance of miRNAs. Therefore, one important conclusion from our work is that during cancer development, there seems to be a convergence of oncogenic processes driven by somatic mutations and/or miRNA regulation affecting key cellular pathways.

Published

2015

5. Deep Sequencing of Serum Small RNAs Identifies Patterns of 5′ tRNA Half and YRNA Fragment Expression Associated with Breast Cancer

Author

David I. K. Martin, Dario Boffelli, Stephen R. Spindler, Joseph M. Dhahbi, and Hani Atamna

Subjects

Microbiology (medical), Immunology, Genomics, circulating small RNAs, Bioinformatics, Proteomics, lcsh:RC254-282, Deep sequencing, breast cancer, Breast cancer, Cancer screening, medicine, Immunology and Allergy, tRNA halves, Original Research, Genetics, business.industry, YRNA fragments, Y RNA, tRNA derivatives, Cancer, medicine.disease, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Transfer RNA, business, serum

Abstract

Small noncoding RNAs circulating in the blood may serve as signaling molecules because of their ability to carry out a variety of cellular functions. We have previously described tRNA- and YRNA-derived small RNAs circulating as components of larger complexes in the blood of humans and mice; the characteristics of these small RNAs imply specific processing, secretion, and physiological regulation. In this study, we have asked if changes in the serum abundance of these tRNA and YRNA fragments are associated with a diagnosis of cancer. We used deep sequencing and informatics analysis to catalog small RNAs in the sera of breast cancer cases and normal controls. 5′ tRNA halves and YRNA fragments are abundant in both groups, but we found that a breast cancer diagnosis is associated with changes in levels of specific subtypes. This prompted us to look at existing sequence datasets of serum small RNAs from 42 breast cancer cases, taken at the time of diagnosis. We find significant changes in the levels of specific 5′ tRNA halves and YRNA fragments associated with clinicopathologic characteristics of the cancer. Although these findings do not establish causality, they suggest that circulating 5′ tRNA halves and YRNA fragments with known cellular functions may participate in breast cancer syndromes and have potential as circulating biomarkers. Larger studies with multiple types of cancer are needed to adequately evaluate their potential use for the development of noninvasive cancer screening.

Published

2014

6. The potential of circulating extracellular small RNAs (smexRNA) in veterinary diagnostics-Identifying biomarker signatures by multivariate data analysis.

Author

Melanie S, Benedikt K, Pfaffl MW, and Irmgard R

Abstract

Worldwide growth and performance-enhancing substances are used in cattle husbandry to increase productivity. In certain countries however e.g., in the EU, these practices are forbidden to prevent the consumers from potential health risks of substance residues in food. To maximize economic profit, 'black sheep' among farmers might circumvent the detection methods used in routine controls, which highlights the need for an innovative and reliable detection method. Transcriptomics is a promising new approach in the discovery of veterinary medicine biomarkers and also a missing puzzle piece, as up to date, metabolomics and proteomics are paramount. Due to increased stability and easy sampling, circulating extracellular small RNAs (smexRNAs) in bovine plasma were small RNA-sequenced and their potential to serve as biomarker candidates was evaluated using multivariate data analysis tools. After running the data evaluation pipeline, the proportion of miRNAs (microRNAs) and piRNAs (PIWI-interacting small non-coding RNAs) on the total sequenced reads was calculated. Additionally, top 10 signatures were compared which revealed that the readcount data sets were highly affected by the most abundant miRNA and piRNA profiles. To evaluate the discriminative power of multivariate data analyses to identify animals after veterinary drug application on the basis of smexRNAs, OPLS-DA was performed. In summary, the quality of miRNA models using all mapped reads for both treatment groups (animals treated with steroid hormones or the β-agonist clenbuterol) is predominant to those generated with combined data sets or piRNAs alone. Using multivariate projection methodologies like OPLS-DA have proven the best potential to generate discriminative miRNA models, supported by small RNA-Seq data. Based on the presented comparative OPLS-DA, miRNAs are the favorable smexRNA biomarker candidates in the research field of veterinary drug abuse.

Published

2015

7. Circulating small non-coding RNA signature in head and neck squamous cell carcinoma.

Author

Victoria Martinez B, Dhahbi JM, Nunez Lopez YO, Lamperska K, Golusinski P, Luczewski L, Kolenda T, Atamna H, Spindler SR, Golusinski W, and Masternak MM

Subjects

Aged, Biomarkers, Tumor genetics, Carcinoma, Squamous Cell blood, Carcinoma, Squamous Cell pathology, Female, Head and Neck Neoplasms blood, Head and Neck Neoplasms pathology, Humans, Male, MicroRNAs genetics, Middle Aged, Mouth Neoplasms blood, Mouth Neoplasms genetics, Mouth Neoplasms pathology, Neoplasm Staging, Prognosis, RNA, Untranslated genetics, Squamous Cell Carcinoma of Head and Neck, Biomarkers, Tumor blood, Carcinoma, Squamous Cell genetics, Head and Neck Neoplasms genetics, MicroRNAs blood, RNA, Untranslated blood

Abstract

The Head and Neck Squamous Cell Carcinoma (HNSCC) is the sixth most common human cancer, causing 350,000 individuals die worldwide each year. The overall prognosis in HNSCC patients has not significantly changed for the last decade. Complete understanding of the molecular mechanisms in HNSCC carcinogenesis could allow an earlier diagnosis and the use of more specific and effective therapies. In the present study we used deep sequencing to characterize small non-coding RNAs (sncRNAs) in serum from HNSCC patients and healthy donors. We identified, for the first time, a multi-marker signature of 3 major classes of circulating sncRNAs in HNSCC, revealing the presence of circulating novel and known miRNAs, and tRNA- and YRNA-derived small RNAs that were significantly deregulated in the sera of HNSCC patients compared to healthy controls. By implementing a triple-filtering approach we identified a subset of highly biologically relevant miRNA-mRNA interactions and we demonstrated that the same genes/pathways affected by somatic mutations in cancer are affected by changes in the abundance of miRNAs. Therefore, one important conclusion from our work is that during cancer development, there seems to be a convergence of oncogenic processes driven by somatic mutations and/or miRNA regulation affecting key cellular pathways.

Published

2015

8. Deep Sequencing of Serum Small RNAs Identifies Patterns of 5' tRNA Half and YRNA Fragment Expression Associated with Breast Cancer.

Author

Dhahbi JM, Spindler SR, Atamna H, Boffelli D, and Martin DI

Abstract

Small noncoding RNAs circulating in the blood may serve as signaling molecules because of their ability to carry out a variety of cellular functions. We have previously described tRNA- and YRNA-derived small RNAs circulating as components of larger complexes in the blood of humans and mice; the characteristics of these small RNAs imply specific processing, secretion, and physiological regulation. In this study, we have asked if changes in the serum abundance of these tRNA and YRNA fragments are associated with a diagnosis of cancer. We used deep sequencing and informatics analysis to catalog small RNAs in the sera of breast cancer cases and normal controls. 5' tRNA halves and YRNA fragments are abundant in both groups, but we found that a breast cancer diagnosis is associated with changes in levels of specific subtypes. This prompted us to look at existing sequence datasets of serum small RNAs from 42 breast cancer cases, taken at the time of diagnosis. We find significant changes in the levels of specific 5' tRNA halves and YRNA fragments associated with clinicopathologic characteristics of the cancer. Although these findings do not establish causality, they suggest that circulating 5' tRNA halves and YRNA fragments with known cellular functions may participate in breast cancer syndromes and have potential as circulating biomarkers. Larger studies with multiple types of cancer are needed to adequately evaluate their potential use for the development of noninvasive cancer screening.

Published

2014

9. 5′ tRNA halves are present as abundant complexes in serum, concentrated in blood cells, and modulated by aging and calorie restriction

Author

Patricia L. Mote, David I. K. Martin, Dario Boffelli, Stephen R. Spindler, Hani Atamna, Joseph M. Dhahbi, and Amy Yamakawa

Subjects

Male, Serum, Aging, Calorie restriction, Biology, Mice, Plasma, Eukaryotic translation, RNA, Transfer, Gene expression, Genetics, Animals, Tissue Distribution, tRNA halves, Peptide Chain Initiation, Translational, Gene, Edetic Acid, Caloric Restriction, Blood Cells, Circulating small RNAs, tRNA derivatives, RNA, Microvesicles, MicroRNAs, Nucleoproteins, Biochemistry, Transfer RNA, Biogenesis, Research Article, Biotechnology

Abstract

Background Small RNAs complex with proteins to mediate a variety of functions in animals and plants. Some small RNAs, particularly miRNAs, circulate in mammalian blood and may carry out a signaling function by entering target cells and modulating gene expression. The subject of this study is a set of circulating 30–33 nt RNAs that are processed derivatives of the 5′ ends of a small subset of tRNA genes, and closely resemble cellular tRNA derivatives (tRFs, tiRNAs, half-tRNAs, 5′ tRNA halves) previously shown to inhibit translation initiation in response to stress in cultured cells. Results In sequencing small RNAs extracted from mouse serum, we identified abundant 5′ tRNA halves derived from a small subset of tRNAs, implying that they are produced by tRNA type-specific biogenesis and/or release. The 5′ tRNA halves are not in exosomes or microvesicles, but circulate as particles of 100–300 kDa. The size of these particles suggest that the 5′ tRNA halves are a component of a macromolecular complex; this is supported by the loss of 5′ tRNA halves from serum or plasma treated with EDTA, a chelating agent, but their retention in plasma anticoagulated with heparin or citrate. A survey of somatic tissues reveals that 5′ tRNA halves are concentrated within blood cells and hematopoietic tissues, but scant in other tissues, suggesting that they may be produced by blood cells. Serum levels of specific subtypes of 5′ tRNA halves change markedly with age, either up or down, and these changes can be prevented by calorie restriction. Conclusions We demonstrate that 5′ tRNA halves circulate in the blood in a stable form, most likely as part of a nucleoprotein complex, and their serum levels are subject to regulation by age and calorie restriction. They may be produced by blood cells, but their cellular targets are not yet known. The characteristics of these circulating molecules, and their known function in suppression of translation initiation, suggest that they are a novel form of signaling molecule.