Identification and Functional Analysis of the Pre-piRNA 3′ Trimmer in Silkworms

PIWI-interacting RNAs (piRNAs) play a crucial role in transposon silencing in animal germ cells. In piRNA biogenesis, single-stranded piRNA intermediates are loaded into PIWI-clade proteins and cleaved by Zucchini/MitoPLD, yielding precursor piRNAs (pre-piRNAs). Pre-piRNAs that are longer than the mature piRNA length are then trimmed at their 3' ends. Although recent studies implicated the Tudor domain protein Papi/Tdrkh in pre-piRNA trimming, the identity of Trimmer and its relationship with Papi/Tdrkh remain unknown. Here, we identified PNLDC1, an uncharacterized 3'-5' exonuclease, as Trimmer in silkworms. Trimmer is enriched in the mitochondrial fraction and binds to Papi/Tdrkh. Depletion of Trimmer and Papi/Tdrkh additively inhibits trimming, causing accumulation of ∼35-40-nt pre-piRNAs that are impaired for target cleavage and prone to degradation. Our results highlight the cooperative action of Trimmer and Papi/Tdrkh in piRNA maturation.

[1]  M. Halić,et al.  Argonaute and Triman generate dicer-independent priRNAs and mature siRNAs to initiate heterochromatin formation. , 2013, Molecular cell.

[2]  G. Dreyfuss,et al.  The pre-mRNA binding K protein contains a novel evolutionarily conserved motif. , 1993, Nucleic acids research.

[3]  S. Sugano,et al.  The Bombyx ovary-derived cell line endogenously expresses PIWI/PIWI-interacting RNA complexes. , 2009, RNA.

[4]  Robert A. Martienssen,et al.  RNA interference in the nucleus: roles for small RNAs in transcription, epigenetics and beyond , 2013, Nature Reviews Genetics.

[5]  Henriette M. Kurth,et al.  2'-O-methylation stabilizes Piwi-associated small RNAs and ensures DNA elimination in Tetrahymena. , 2009, RNA.

[6]  Ravi Sachidanandam,et al.  Developmentally Regulated piRNA Clusters Implicate MILI in Transposon Control , 2007, Science.

[7]  S. Kawaoka,et al.  3' end formation of PIWI-interacting RNAs in vitro. , 2011, Molecular cell.

[8]  Julius Brennecke,et al.  piRNA-guided slicing specifies transcripts for Zucchini-dependent, phased piRNA biogenesis , 2015, Science.

[9]  Haifan Lin,et al.  PAPI, a novel TUDOR-domain protein, complexes with AGO3, ME31B and TRAL in the nuage to silence transposition , 2011, Development.

[10]  Kuniaki Saito,et al.  Pimet, the Drosophila homolog of HEN1, mediates 2'-O-methylation of Piwi- interacting RNAs at their 3' ends. , 2007, Genes & development.

[11]  G. Hannon,et al.  The structural biochemistry of Zucchini implicates it as a nuclease in piRNA biogenesis , 2012, Nature.

[12]  Peng Wang,et al.  The Drosophila RNA Methyltransferase, DmHen1, Modifies Germline piRNAs and Single-Stranded siRNAs in RISC , 2007, Current Biology.

[13]  Lucas J. T. Kaaij,et al.  Differential Impact of the HEN1 Homolog HENN-1 on 21U and 26G RNAs in the Germline of Caenorhabditis elegans , 2012, PLoS genetics.

[14]  Bo W. Han,et al.  The 3′-to-5′ Exoribonuclease Nibbler Shapes the 3′ Ends of MicroRNAs Bound to Drosophila Argonaute1 , 2011, Current Biology.

[15]  Ravi Sachidanandam,et al.  A piRNA pathway primed by individual transposons is linked to de novo DNA methylation in mice. , 2008, Molecular cell.

[16]  P. Zamore,et al.  Small silencing RNAs: an expanding universe , 2009, Nature Reviews Genetics.

[17]  Manolis Maragkakis,et al.  Mitochondrial protein BmPAPI modulates the length of mature piRNAs , 2013, RNA.

[18]  G. Ruvkun,et al.  PIWI Associated siRNAs and piRNAs Specifically Require the Caenorhabditis elegans HEN1 Ortholog henn-1 , 2012, PLoS genetics.

[19]  H. Ren,et al.  piRNA-associated germline nuage formation and spermatogenesis require MitoPLD profusogenic mitochondrial-surface lipid signaling. , 2011, Developmental cell.

[20]  Jon W. Huss,et al.  BioGPS: an extensible and customizable portal for querying and organizing gene annotation resources , 2009, Genome Biology.

[21]  Zissimos Mourelatos,et al.  Mouse Piwi-interacting RNAs are 2′-O-methylated at their 3′ termini , 2007, Nature Structural &Molecular Biology.

[22]  R. Sachidanandam,et al.  A role for Fkbp6 and the chaperone machinery in piRNA amplification and transposon silencing. , 2012, Molecular cell.

[23]  Zhiping Weng,et al.  piRNA-guided transposon cleavage initiates Zucchini-dependent, phased piRNA production , 2015, Science.

[24]  Zhonghuai Xiang,et al.  MicroRNAs of Bombyx mori identified by Solexa sequencing , 2010, BMC Genomics.

[25]  R. Sachidanandam,et al.  PIWI Slicing and RNA Elements in Precursors Instruct Directional Primary piRNA Biogenesis. , 2015, Cell reports.

[26]  Lucas J. T. Kaaij,et al.  Hen1 is required for oocyte development and piRNA stability in zebrafish , 2010, The EMBO journal.

[27]  Hongyu Zhao,et al.  Tdrkh is essential for spermatogenesis and participates in primary piRNA biogenesis in the germline , 2013, The EMBO journal.

[28]  C. Sander,et al.  A novel class of small RNAs bind to MILI protein in mouse testes , 2006, Nature.

[29]  Zhiping Weng,et al.  An ancient transcription factor initiates the burst of piRNA production during early meiosis in mouse testes. , 2013, Molecular cell.

[30]  A. Fujiyama,et al.  MITOPLD is a mitochondrial protein essential for nuage formation and piRNA biogenesis in the mouse germline. , 2011, Developmental cell.

[31]  Y. Okada,et al.  Establishment of Alternative Culture Method for Spermatogonial Stem Cells Using Knockout Serum Replacement , 2013, PloS one.

[32]  K. Mita,et al.  Genome-wide screening and characterization of transposable elements and their distribution analysis in the silkworm, Bombyx mori. , 2008, Insect biochemistry and molecular biology.

[33]  P. Pinton,et al.  Isolation of mitochondria-associated membranes and mitochondria from animal tissues and cells , 2009, Nature Protocols.

[34]  K. Senti,et al.  The piRNA pathway: a fly's perspective on the guardian of the genome. , 2010, Trends in genetics : TIG.

[35]  Kuniaki Saito,et al.  A Slicer-Mediated Mechanism for Repeat-Associated siRNA 5' End Formation in Drosophila , 2007, Science.

[36]  Kuniaki Saito,et al.  Structure and function of Zucchini endoribonuclease in piRNA biogenesis , 2012, Nature.

[37]  Kuniaki Saito,et al.  Roles for the Yb body components Armitage and Yb in primary piRNA biogenesis in Drosophila. , 2010, Genes & development.

[38]  Gregory J. Hannon,et al.  Small RNAs as Guardians of the Genome , 2009, Cell.

[39]  A. Hamilton,et al.  Improved northern blot method for enhanced detection of small RNA , 2008, Nature Protocols.

[40]  Nancy M Bonini,et al.  The exonuclease Nibbler regulates age-associated traits and modulates piRNA length in Drosophila , 2015, Aging Cell.

[41]  Eugene Berezikov,et al.  A Role for Piwi and piRNAs in Germ Cell Maintenance and Transposon Silencing in Zebrafish , 2007, Cell.

[42]  G. Meister Argonaute proteins: functional insights and emerging roles , 2013, Nature Reviews Genetics.

[43]  Anton J. Enright,et al.  The endonuclease activity of Mili fuels piRNA amplification that silences LINE1 elements , 2011, Nature.

[44]  René F. Ketting,et al.  PIWI-interacting RNAs: from generation to transgenerational epigenetics , 2013, Nature Reviews Genetics.

[45]  E. Miska,et al.  piRNAs: from biogenesis to function , 2014, Development.

[46]  A. Aravin,et al.  PIWI-interacting small RNAs: the vanguard of genome defence , 2011, Nature Reviews Molecular Cell Biology.

[47]  T. Endo,et al.  Possibility of cytoplasmic pre-tRNA splicing: the yeast tRNA splicing endonuclease mainly localizes on the mitochondria. , 2003, Molecular biology of the cell.

[48]  Tsutomu Suzuki,et al.  Poly(A)-specific ribonuclease mediates 3'-end trimming of Argonaute2-cleaved precursor microRNAs. , 2013, Cell reports.

[49]  Manolis Kellis,et al.  Discrete Small RNA-Generating Loci as Master Regulators of Transposon Activity in Drosophila , 2007, Cell.

[50]  Vladimir Gvozdev,et al.  A Distinct Small RNA Pathway Silences Selfish Genetic Elements in the Germline , 2006, Science.

[51]  Zissimos Mourelatos,et al.  The mouse homolog of HEN1 is a potential methylase for Piwi-interacting RNAs. , 2007, RNA.

[52]  Martin J. Simard,et al.  Argonaute proteins: key players in RNA silencing , 2008, Nature Reviews Molecular Cell Biology.

[53]  Ammar S Naqvi,et al.  The Exoribonuclease Nibbler Controls 3′ End Processing of MicroRNAs in Drosophila , 2011, Current Biology.

[54]  Na Liu,et al.  piRNA biogenesis during adult spermatogenesis in mice is independent of the ping-pong mechanism , 2012, Cell Research.

[55]  Guiliang Tang,et al.  In vitro analysis of RNA interference in Drosophila melanogaster. , 2003, Methods.

[56]  Tony Pawson,et al.  Deciphering arginine methylation: Tudor tells the tale , 2011, Nature Reviews Molecular Cell Biology.

[57]  Ravi Sachidanandam,et al.  A germline-specific class of small RNAs binds mammalian Piwi proteins , 2006, Nature.

[58]  Z. Paroo,et al.  ATP-dependent human RISC assembly pathways , 2010, Nature Structural &Molecular Biology.

[59]  Haifan Lin,et al.  A novel class of small RNAs in mouse spermatogenic cells. , 2006, Genes & development.

[60]  H. Ueda,et al.  The 3′ termini of mouse Piwi-interacting RNAs are 2′-O-methylated , 2007, Nature Structural &Molecular Biology.

[61]  R. Ketting The many faces of RNAi. , 2011, Developmental cell.

[62]  John K. Kim,et al.  The Caenorhabditis elegans HEN1 Ortholog, HENN-1, Methylates and Stabilizes Select Subclasses of Germline Small RNAs , 2012, PLoS genetics.

[63]  Zhiping Weng,et al.  The RNase PARN-1 Trims piRNA 3′ Ends to Promote Transcriptome Surveillance in C. elegans , 2016, Cell.