Analysis of 13 cell types reveals evidence for the expression of numerous novel primate- And tissue-specific microRNAs

Eric Londina; Phillipe Lohera; Aristeidis G. Telonis; Kevin Quann; Peter Clark; Yi Jinga; Eleftheria Hatzimichael; Yohei Kirino; Shozo Honda; Michelle Lally; Bharat Ramratnam; Clay E S Comstock; Karen E. Knudsen; Leonard Gomella; George L. Spaeth; Lisa Hark; L. Jay Katz; Agnieszka Witkiewicz; Abdolmohamad Rostami; Sergio A. Jimenez; Michael A. Hollingsworth; Jen Jen Yeh; Chad A. Shaw; Steven E. McKenzie; Paul Bray; Peter T. Nelson; Simona Zupo; Katrien Van Roosbroeck; Michael J. Keating; Georg A. Calin; Charles Yeo; Masaya Jimbo; Joseph Cozzitorto; Jonathan R. Brody; Kathleen Delgrosso; John S. Mattick; Paolo Fortina; Isidore Rigoutsos

doi:10.1073/pnas.1420955112

Analysis of 13 cell types reveals evidence for the expression of numerous novel primate- And tissue-specific microRNAs

Eric Londina, Phillipe Lohera, Aristeidis G. Telonis, Kevin Quann, Peter Clark, Yi Jinga, Eleftheria Hatzimichael, Yohei Kirino, Shozo Honda, Michelle Lally, Bharat Ramratnam, Clay E S Comstock, Karen E. Knudsen, Leonard Gomella, George L. Spaeth, Lisa Hark, L. Jay Katz, Agnieszka Witkiewicz, Abdolmohamad Rostami, Sergio A. JimenezMichael A. Hollingsworth, Jen Jen Yeh, Chad A. Shaw, Steven E. McKenzie, Paul Bray, Peter T. Nelson, Simona Zupo, Katrien Van Roosbroeck, Michael J. Keating, Georg A. Calin, Charles Yeo, Masaya Jimbo, Joseph Cozzitorto, Jonathan R. Brody, Kathleen Delgrosso, John S. Mattick, Paolo Fortina, Isidore Rigoutsos

Research output: Contribution to journal › Article › peer-review

320 Scopus citations

Abstract

Two decades after the discovery of the first animal microRNA (miRNA), the number of miRNAs in animal genomes remains a vexing question. Here, we report findings from analyzing 1,323 short RNA sequencing samples (RNA-seq) from 13 different human tissue types. Using stringent thresholding criteria, we identified 3,707 statistically significant novel mature miRNAs at a false discovery rate of ?0.05arising from3,494novel precursors; 91.5%of these novelmiRNAswere identified independently in 10 or more of the processed samples. Analysis of these novel miRNAs revealed tissue-specific dependencies and a commensurate low Jaccard similarity index in intertissue comparisons. Of these novelmiRNAs, 1,657 (45%)were identified in43datasets that were generated by cross-linking followed by Argonaute immunoprecipitation and sequencing (Ago CLIP-seq) and represented 3 of the13 tissues, indicating that thesemiRNAs are active in the RNA interference pathway. Moreover, experimental investigation through stemloop PCR of a random collection of newly discovered miRNAs in 12 cell lines representing 5 tissues confirmed their presence and tissue dependence. Among the newly identified miRNAs are many novel miRNA clusters, new members of known miRNA clusters, previously unreported products from uncharacterized arms of miRNA precursors, and previously unrecognized paralogues of functionally important miRNA families (e.g., miR-15/107). Examination of the sequence conservation across vertebrate and invertebrate organisms showed 56.7% of the newly discovered miRNAs to be human-specific whereas the majority (94.4%) are primate lineage-specific. Our findings suggest that the repertoire of human miRNAs is far more extensive than currently representedbypublic repositoriesandthat thereisasignificantnumber of lineage- and/or tissue-specific miRNAs that are uncharacterized.

Original language	English (US)
Pages (from-to)	E1106-E1115
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	112
Issue number	10
DOIs	https://doi.org/10.1073/pnas.1420955112
State	Published - Mar 10 2015

Keywords

IsomIRs
MicroRNAs
Noncoding RNA
RNA sequencing
Transcriptome

ASJC Scopus subject areas

General

Access to Document

10.1073/pnas.1420955112

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Londina, E., Lohera, P., Telonis, A. G., Quann, K., Clark, P., Jinga, Y., Hatzimichael, E., Kirino, Y., Honda, S., Lally, M., Ramratnam, B., Comstock, C. E. S., Knudsen, K. E., Gomella, L., Spaeth, G. L., Hark, L., Katz, L. J., Witkiewicz, A., Rostami, A., ... Rigoutsos, I. (2015). Analysis of 13 cell types reveals evidence for the expression of numerous novel primate- And tissue-specific microRNAs. Proceedings of the National Academy of Sciences of the United States of America, 112(10), E1106-E1115. https://doi.org/10.1073/pnas.1420955112

Analysis of 13 cell types reveals evidence for the expression of numerous novel primate- And tissue-specific microRNAs. / Londina, Eric; Lohera, Phillipe; Telonis, Aristeidis G. et al.
In: Proceedings of the National Academy of Sciences of the United States of America, Vol. 112, No. 10, 10.03.2015, p. E1106-E1115.

Research output: Contribution to journal › Article › peer-review

Londina, E, Lohera, P, Telonis, AG, Quann, K, Clark, P, Jinga, Y, Hatzimichael, E, Kirino, Y, Honda, S, Lally, M, Ramratnam, B, Comstock, CES, Knudsen, KE, Gomella, L, Spaeth, GL, Hark, L, Katz, LJ, Witkiewicz, A, Rostami, A, Jimenez, SA, Hollingsworth, MA, Yeh, JJ, Shaw, CA, McKenzie, SE, Bray, P, Nelson, PT, Zupo, S, Van Roosbroeck, K, Keating, MJ, Calin, GA, Yeo, C, Jimbo, M, Cozzitorto, J, Brody, JR, Delgrosso, K, Mattick, JS, Fortina, P & Rigoutsos, I 2015, 'Analysis of 13 cell types reveals evidence for the expression of numerous novel primate- And tissue-specific microRNAs', Proceedings of the National Academy of Sciences of the United States of America, vol. 112, no. 10, pp. E1106-E1115. https://doi.org/10.1073/pnas.1420955112

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abstract = "Two decades after the discovery of the first animal microRNA (miRNA), the number of miRNAs in animal genomes remains a vexing question. Here, we report findings from analyzing 1,323 short RNA sequencing samples (RNA-seq) from 13 different human tissue types. Using stringent thresholding criteria, we identified 3,707 statistically significant novel mature miRNAs at a false discovery rate of ?0.05arising from3,494novel precursors; 91.5%of these novelmiRNAswere identified independently in 10 or more of the processed samples. Analysis of these novel miRNAs revealed tissue-specific dependencies and a commensurate low Jaccard similarity index in intertissue comparisons. Of these novelmiRNAs, 1,657 (45%)were identified in43datasets that were generated by cross-linking followed by Argonaute immunoprecipitation and sequencing (Ago CLIP-seq) and represented 3 of the13 tissues, indicating that thesemiRNAs are active in the RNA interference pathway. Moreover, experimental investigation through stemloop PCR of a random collection of newly discovered miRNAs in 12 cell lines representing 5 tissues confirmed their presence and tissue dependence. Among the newly identified miRNAs are many novel miRNA clusters, new members of known miRNA clusters, previously unreported products from uncharacterized arms of miRNA precursors, and previously unrecognized paralogues of functionally important miRNA families (e.g., miR-15/107). Examination of the sequence conservation across vertebrate and invertebrate organisms showed 56.7% of the newly discovered miRNAs to be human-specific whereas the majority (94.4%) are primate lineage-specific. Our findings suggest that the repertoire of human miRNAs is far more extensive than currently representedbypublic repositoriesandthat thereisasignificantnumber of lineage- and/or tissue-specific miRNAs that are uncharacterized.",

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author = "Eric Londina and Phillipe Lohera and Telonis, {Aristeidis G.} and Kevin Quann and Peter Clark and Yi Jinga and Eleftheria Hatzimichael and Yohei Kirino and Shozo Honda and Michelle Lally and Bharat Ramratnam and Comstock, {Clay E S} and Knudsen, {Karen E.} and Leonard Gomella and Spaeth, {George L.} and Lisa Hark and Katz, {L. Jay} and Agnieszka Witkiewicz and Abdolmohamad Rostami and Jimenez, {Sergio A.} and Hollingsworth, {Michael A.} and Yeh, {Jen Jen} and Shaw, {Chad A.} and McKenzie, {Steven E.} and Paul Bray and Nelson, {Peter T.} and Simona Zupo and {Van Roosbroeck}, Katrien and Keating, {Michael J.} and Calin, {Georg A.} and Charles Yeo and Masaya Jimbo and Joseph Cozzitorto and Brody, {Jonathan R.} and Kathleen Delgrosso and Mattick, {John S.} and Paolo Fortina and Isidore Rigoutsos",

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AU - Clark, Peter

AU - Jinga, Yi

AU - Hatzimichael, Eleftheria

AU - Kirino, Yohei

AU - Honda, Shozo

AU - Lally, Michelle

AU - Ramratnam, Bharat

AU - Comstock, Clay E S

AU - Knudsen, Karen E.

AU - Gomella, Leonard

AU - Spaeth, George L.

AU - Hark, Lisa

AU - Katz, L. Jay

AU - Witkiewicz, Agnieszka

AU - Rostami, Abdolmohamad

AU - Jimenez, Sergio A.

AU - Hollingsworth, Michael A.

AU - Yeh, Jen Jen

AU - Shaw, Chad A.

AU - McKenzie, Steven E.

AU - Bray, Paul

AU - Nelson, Peter T.

AU - Zupo, Simona

AU - Van Roosbroeck, Katrien

AU - Keating, Michael J.

AU - Calin, Georg A.

AU - Yeo, Charles

AU - Jimbo, Masaya

AU - Cozzitorto, Joseph

AU - Brody, Jonathan R.

AU - Delgrosso, Kathleen

AU - Mattick, John S.

AU - Fortina, Paolo

AU - Rigoutsos, Isidore

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AB - Two decades after the discovery of the first animal microRNA (miRNA), the number of miRNAs in animal genomes remains a vexing question. Here, we report findings from analyzing 1,323 short RNA sequencing samples (RNA-seq) from 13 different human tissue types. Using stringent thresholding criteria, we identified 3,707 statistically significant novel mature miRNAs at a false discovery rate of ?0.05arising from3,494novel precursors; 91.5%of these novelmiRNAswere identified independently in 10 or more of the processed samples. Analysis of these novel miRNAs revealed tissue-specific dependencies and a commensurate low Jaccard similarity index in intertissue comparisons. Of these novelmiRNAs, 1,657 (45%)were identified in43datasets that were generated by cross-linking followed by Argonaute immunoprecipitation and sequencing (Ago CLIP-seq) and represented 3 of the13 tissues, indicating that thesemiRNAs are active in the RNA interference pathway. Moreover, experimental investigation through stemloop PCR of a random collection of newly discovered miRNAs in 12 cell lines representing 5 tissues confirmed their presence and tissue dependence. Among the newly identified miRNAs are many novel miRNA clusters, new members of known miRNA clusters, previously unreported products from uncharacterized arms of miRNA precursors, and previously unrecognized paralogues of functionally important miRNA families (e.g., miR-15/107). Examination of the sequence conservation across vertebrate and invertebrate organisms showed 56.7% of the newly discovered miRNAs to be human-specific whereas the majority (94.4%) are primate lineage-specific. Our findings suggest that the repertoire of human miRNAs is far more extensive than currently representedbypublic repositoriesandthat thereisasignificantnumber of lineage- and/or tissue-specific miRNAs that are uncharacterized.

KW - IsomIRs

KW - MicroRNAs

KW - Noncoding RNA

KW - RNA sequencing

KW - Transcriptome

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Analysis of 13 cell types reveals evidence for the expression of numerous novel primate- And tissue-specific microRNAs

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Keywords

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