Characterizing the role of RNA silencing components in Cryptococcus neoformans

Guilhem Janbon; Shinae Maeng; Dong Hoon Yang; Young Joon Ko; Kwang Woo Jung; Frédérique Moyrand; Anna Floyd; Joseph Heitman; Yong Sun Bahn

doi:10.1016/j.fgb.2010.10.005

Characterizing the role of RNA silencing components in Cryptococcus neoformans

Guilhem Janbon, Shinae Maeng, Dong Hoon Yang, Young Joon Ko, Kwang Woo Jung, Frédérique Moyrand, Anna Floyd, Joseph Heitman, Yong Sun Bahn

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Abstract

The RNA interference (RNAi) mediated by homology-dependent degradation of the target mRNA with small RNA molecules plays a key role in controlling transcription and translation processes in a number of eukaryotic organisms. The RNAi machinery is also evolutionarily conserved in a wide variety of fungal species, including pathogenic fungi. To elucidate the physiological functions of the RNAi pathway in Cryptococcus neoformans that causes fungal meningitis, here we performed genetic analyses for genes encoding Argonaute (AGO1 and AGO2), RNA-dependent RNA polymerase (RDP1), and Dicers (DCR1 and DCR2) in both serotype A and D C. neoformans. The present study shows that Ago1, Rdp1, and Dcr2 are the major components of the RNAi process occurring in C. neoformans. However, the RNAi machinery is not involved in regulation of production of two virulence factors (capsule and melanin), sexual differentiation, and diverse stress response. Comparative transcriptome analysis of the serotype A and D RNAi mutants revealed that only modest changes occur in the genome-wide transcriptome profiles when the RNAi process was perturbed. Notably, the serotype D rdp1Δ mutants showed an increase in transcript abundance of active retrotransposons and transposons, such as T2 and T3, the latter of which is a novel serotype D-specific transposon of C. neoformans. In a wild type background both T2 and T3 were found to be weakly active mobile elements, although we found no evidence of Cnl1 retrotransposon mobility. In contrast, all three transposable elements exhibited enhanced mobility in the rdp1Δ mutant strain. In conclusion, the RNAi pathway plays an important role in controlling transposon activity and genome integrity of C. neoformans.

Original language	English
Pages (from-to)	1070-1080
Number of pages	11
Journal	Fungal Genetics and Biology
Volume	47
Issue number	12
DOIs	https://doi.org/10.1016/j.fgb.2010.10.005
Publication status	Published - 2010 Dec

Bibliographical note

Funding Information:
We thank Tamara Doering, Jenny Lodge, and Christina Hull for coordinating the community microarray consortium. We thank Tamara Doering for providing us the pRNAi plasmid. We thank Tristan Rossignol for his help in the analysis of serotype D microarray data. This work was supported by the Korea Research Foundation grant funded by the Korean Government (MOEHRD, Basic Research Promotion Fund) (KRF-331-2007-1-C00223, KRF-331-2008-1-C00245) and in part by the National Research Foundation of Korea (NRF) grants funded by the Korea government (MEST) (No. 2009-0063344)(to Y.S.B). This work was supported in part by the ANR (Erapathogenomic program) to G.J. This work was also supported in part by RO1 Grant AI39115 from the NIH/NIAID (to J.H.).

All Science Journal Classification (ASJC) codes

Microbiology
Genetics

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10.1016/j.fgb.2010.10.005

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title = "Characterizing the role of RNA silencing components in Cryptococcus neoformans",

abstract = "The RNA interference (RNAi) mediated by homology-dependent degradation of the target mRNA with small RNA molecules plays a key role in controlling transcription and translation processes in a number of eukaryotic organisms. The RNAi machinery is also evolutionarily conserved in a wide variety of fungal species, including pathogenic fungi. To elucidate the physiological functions of the RNAi pathway in Cryptococcus neoformans that causes fungal meningitis, here we performed genetic analyses for genes encoding Argonaute (AGO1 and AGO2), RNA-dependent RNA polymerase (RDP1), and Dicers (DCR1 and DCR2) in both serotype A and D C. neoformans. The present study shows that Ago1, Rdp1, and Dcr2 are the major components of the RNAi process occurring in C. neoformans. However, the RNAi machinery is not involved in regulation of production of two virulence factors (capsule and melanin), sexual differentiation, and diverse stress response. Comparative transcriptome analysis of the serotype A and D RNAi mutants revealed that only modest changes occur in the genome-wide transcriptome profiles when the RNAi process was perturbed. Notably, the serotype D rdp1Δ mutants showed an increase in transcript abundance of active retrotransposons and transposons, such as T2 and T3, the latter of which is a novel serotype D-specific transposon of C. neoformans. In a wild type background both T2 and T3 were found to be weakly active mobile elements, although we found no evidence of Cnl1 retrotransposon mobility. In contrast, all three transposable elements exhibited enhanced mobility in the rdp1Δ mutant strain. In conclusion, the RNAi pathway plays an important role in controlling transposon activity and genome integrity of C. neoformans.",

author = "Guilhem Janbon and Shinae Maeng and Yang, {Dong Hoon} and Ko, {Young Joon} and Jung, {Kwang Woo} and Fr{\'e}d{\'e}rique Moyrand and Anna Floyd and Joseph Heitman and Bahn, {Yong Sun}",

note = "Funding Information: We thank Tamara Doering, Jenny Lodge, and Christina Hull for coordinating the community microarray consortium. We thank Tamara Doering for providing us the pRNAi plasmid. We thank Tristan Rossignol for his help in the analysis of serotype D microarray data. This work was supported by the Korea Research Foundation grant funded by the Korean Government (MOEHRD, Basic Research Promotion Fund) (KRF-331-2007-1-C00223, KRF-331-2008-1-C00245) and in part by the National Research Foundation of Korea (NRF) grants funded by the Korea government (MEST) (No. 2009-0063344)(to Y.S.B). This work was supported in part by the ANR (Erapathogenomic program) to G.J. This work was also supported in part by RO1 Grant AI39115 from the NIH/NIAID (to J.H.). ",

year = "2010",

month = dec,

doi = "10.1016/j.fgb.2010.10.005",

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journal = "Fungal Genetics and Biology",

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T1 - Characterizing the role of RNA silencing components in Cryptococcus neoformans

AU - Janbon, Guilhem

AU - Maeng, Shinae

AU - Yang, Dong Hoon

AU - Ko, Young Joon

AU - Jung, Kwang Woo

AU - Moyrand, Frédérique

AU - Floyd, Anna

AU - Heitman, Joseph

AU - Bahn, Yong Sun

N1 - Funding Information: We thank Tamara Doering, Jenny Lodge, and Christina Hull for coordinating the community microarray consortium. We thank Tamara Doering for providing us the pRNAi plasmid. We thank Tristan Rossignol for his help in the analysis of serotype D microarray data. This work was supported by the Korea Research Foundation grant funded by the Korean Government (MOEHRD, Basic Research Promotion Fund) (KRF-331-2007-1-C00223, KRF-331-2008-1-C00245) and in part by the National Research Foundation of Korea (NRF) grants funded by the Korea government (MEST) (No. 2009-0063344)(to Y.S.B). This work was supported in part by the ANR (Erapathogenomic program) to G.J. This work was also supported in part by RO1 Grant AI39115 from the NIH/NIAID (to J.H.).

PY - 2010/12

Y1 - 2010/12

N2 - The RNA interference (RNAi) mediated by homology-dependent degradation of the target mRNA with small RNA molecules plays a key role in controlling transcription and translation processes in a number of eukaryotic organisms. The RNAi machinery is also evolutionarily conserved in a wide variety of fungal species, including pathogenic fungi. To elucidate the physiological functions of the RNAi pathway in Cryptococcus neoformans that causes fungal meningitis, here we performed genetic analyses for genes encoding Argonaute (AGO1 and AGO2), RNA-dependent RNA polymerase (RDP1), and Dicers (DCR1 and DCR2) in both serotype A and D C. neoformans. The present study shows that Ago1, Rdp1, and Dcr2 are the major components of the RNAi process occurring in C. neoformans. However, the RNAi machinery is not involved in regulation of production of two virulence factors (capsule and melanin), sexual differentiation, and diverse stress response. Comparative transcriptome analysis of the serotype A and D RNAi mutants revealed that only modest changes occur in the genome-wide transcriptome profiles when the RNAi process was perturbed. Notably, the serotype D rdp1Δ mutants showed an increase in transcript abundance of active retrotransposons and transposons, such as T2 and T3, the latter of which is a novel serotype D-specific transposon of C. neoformans. In a wild type background both T2 and T3 were found to be weakly active mobile elements, although we found no evidence of Cnl1 retrotransposon mobility. In contrast, all three transposable elements exhibited enhanced mobility in the rdp1Δ mutant strain. In conclusion, the RNAi pathway plays an important role in controlling transposon activity and genome integrity of C. neoformans.

AB - The RNA interference (RNAi) mediated by homology-dependent degradation of the target mRNA with small RNA molecules plays a key role in controlling transcription and translation processes in a number of eukaryotic organisms. The RNAi machinery is also evolutionarily conserved in a wide variety of fungal species, including pathogenic fungi. To elucidate the physiological functions of the RNAi pathway in Cryptococcus neoformans that causes fungal meningitis, here we performed genetic analyses for genes encoding Argonaute (AGO1 and AGO2), RNA-dependent RNA polymerase (RDP1), and Dicers (DCR1 and DCR2) in both serotype A and D C. neoformans. The present study shows that Ago1, Rdp1, and Dcr2 are the major components of the RNAi process occurring in C. neoformans. However, the RNAi machinery is not involved in regulation of production of two virulence factors (capsule and melanin), sexual differentiation, and diverse stress response. Comparative transcriptome analysis of the serotype A and D RNAi mutants revealed that only modest changes occur in the genome-wide transcriptome profiles when the RNAi process was perturbed. Notably, the serotype D rdp1Δ mutants showed an increase in transcript abundance of active retrotransposons and transposons, such as T2 and T3, the latter of which is a novel serotype D-specific transposon of C. neoformans. In a wild type background both T2 and T3 were found to be weakly active mobile elements, although we found no evidence of Cnl1 retrotransposon mobility. In contrast, all three transposable elements exhibited enhanced mobility in the rdp1Δ mutant strain. In conclusion, the RNAi pathway plays an important role in controlling transposon activity and genome integrity of C. neoformans.

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Characterizing the role of RNA silencing components in Cryptococcus neoformans

Abstract

Bibliographical note

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