Characterisation of proteins involved in CRISPR-mediated antiviral defence in Sulfolobus solfataricus

Kerou, Melina L.

January 2012

One of the most surprising realisations to emerge from metagenomics studies in the early ‘00s was that the population of viruses and phages in nature is about 10 times larger than the population of prokaryotic organisms. Thus, bacteria and archaea are under constant pressure to develop resistance methods against a population of viruses with extremely high turnover and evolution rates, in what has been described as an evolutionary “arms race”. A novel, adaptive and heritable immune system encoded by prokaryotic genomes is the CRISPR/Cas system. Arrays of clustered regularly interspersed short palindromic repeats (CRISPR) are able to incorporate viral or plasmid sequences which are then used to inactivate the corresponding invader element via an RNA interference mechanism. A number of CRISPR-associated (Cas) protein families are responsible for the maintenance, expansion and function of the CRISPR loci. This system can be classified in a number of types and subtypes that differ widely in their gene composition and mode of action. This thesis describes the biochemical characteristics of CRISPR-mediated defense in the crenarchaeon Sulfolobus solfataricus. The process of CRISPR loci transcription and their subsequent maturation into small guide crRNA units by the processing endonuclease of the system (Cas6) is investigated. After this step, different pathways and effector proteins are involved in the recognition and silencing of DNA or RNA exogenous nucleic acids. This thesis reports the identification and purification of a native multiprotein complex from S. solfataricus P2, the Cmr complex, a homologue of which has been found to recognise and cleave RNA targets in P. furiosus. The recognition and silencing of DNA targets in E. coli has been shown to involve a multiprotein complex termed CASCADE as well as Cas3, a putative helicase-HD nuclease. S. solfataricus encodes orthologues for the core proteins of this complex, and the formation and function of an archaeal CASCADE is investigated in this thesis.

615.7

CRISPR RNA biogenesis by a Cas6 nuclease

Sokolowski, Richard D.

January 2015

Clustered regularly interspaced short palindromic repeats (CRISPRs) and associated (Cas) proteins form the basis of a prokaryotic adaptive immune system. Acquired sections of viral DNA are stored within the host genome as ‘spacers' flanked by ‘repeat' sequences. The CRISPR arrays are transcribed and processed to release mature CRISPR RNAs (crRNAs) – containing a single, intact spacer sequence – that are used by effector complexes to base-pair with matching hostile genetic elements and silence future infections. crRNA-biogenesis is thus an essential step within the defence pathway. Within Type I and III systems, the primary processing of the CRISPR transcript at repeat sites is performed almost exclusively by the CRISPR-specific riboendonuclease, Cas6. This thesis seeks to probe the catalytic mechanism of a Cas6 enzyme from the crenarchaeon Sulfolobus solfataricus (sso). Despite analogous generation of crRNA, ssoCas6 paralogues differ from previously characterised Cas6 examples in their lack of a canonical active site histidine residue. The work here builds on recent crystallographic evidence that the ssoCas6-1 paralogue unexpectedly adopts a dimeric conformation (PDB 3ZFV, 4ILR), to show that not only is the ssoCas6-1 dimer stable in solution but that this atypical arrangement is important to the activity of this particular enzyme. Furthermore, the ssoCas6-1 paralogue is shown to be the first in this family of endonucleases to employ multiple-turnover kinetics. The widespread diversity in Cas6 catalytic mechanisms reflects the plastic nature of the Cas6 active site and rapid co-evolution with substrate repeat sequences. The CRISPR/Cas environment within S. solfataricus is highly complex, containing three co-existing system types (Type I-A, III-A, III-B), five Cas6 paralogues and two families of CRISPR loci (AB and CD) that differ by repeat sequence. By probing the activity of an additional ssoCas6 paralogue (ssoCas6-3), which reveals different substrate specificities to those of ssoCas6-1, evidence emerges for functional coupling between ssoCas6 paralogues and downstream effector complexes, sufficient to regulate crRNA uptake and possibly even complex assembly.

570

Transgenic resistance against Citrus tristeza virus (CTV) and analysis of the viral p23 protein as pathogenicity determinant in citrus

Soler Calvo, Nuria

02 September 2013

El virus de la tristeza de los cítricos (Citrus tristeza virus; CTV) es el agente causal de unas de las enfermedades virales de los árboles cítricos más devastadoras en el mundo. CTV está restringido al floema en su huésped cítrico natural, y ha desarrollado tres proteínas supresoras de silenciamiento que actúan a nivel intra-(p23 y p20) e intercelular (p20 y p25) para superar la fuerte defensa antiviral del huésped. La interferencia de RNA, una aproximación basada en el uso de dsRNA para desencadenar el silenciamiento de RNA, ha sido utilizada ampliamente para generar plantas transgénicas resistentes a virus. Considerando el importante papel de p23, p20 y p25 en la patogénesis de CTV, hemos transformado plantas de lima Mexicana con un vector intrón-horquilla que porta la secuencia completa en versión no traducible de los genes p25, p20, p23 y el extremo 3¿-UTR de la cepa T36 de CTV, para intentar silenciar su expresión en células infectadas. Se ha observado resistencia completa a la infección viral en tres líneas transgénicas, manteniéndose todas sus propagaciones asintomáticas y libres de virus tras ser inoculadas mediante injerto con CTV-T36, tanto en el portainjertos no transgénico como directamente sobre la variedad transgénica. La acumulación de siRNA derivados del transgén fue necesaria pero no suficiente para lograr resistencia frente a CTV en las plantas. Al inocular propagaciones de las líneas transgénicas inmunes con una cepa de CTV divergente, la resistencia fue parcialmente superada, destacando la importancia de la identidad de secuencia en el mecanismo subyacente a la interferencia de RNA. Este trabajo es el primero en que se consigue resistencia completa a CTV en un huésped cítrico muy sensible, actuando simultáneamente sobre los tres supresores virales de silenciamiento mediante interferencia de RNA. La proteína p23 codificada por el virus es además un importante factor de patogenicidad. La expresión ectópica de p23 en plantas de cítricos induce aberraciones fenológicas semejantes a síntomas de CTV. Para estudiar en más detalle el papel de p23 en la patogénesis de CTV, se ha sobre-expresado en lima Mexicana el gen p23 de CTV T36 y tres versiones truncadas del mismo bajo el control del promotor 35S del virus del mosaico de la coliflor (Cauliflower mosaic virus). Solo la versión truncada, que expresa los aminoácidos del 1 al 157 (p23-¿157) indujo síntomas similares a los producidos por CTV, aunque más suaves que los inducidos por la expresión de la proteína p23 entera (209 aminoácidos), permitiendo delimitar la región responsable de la patogénesis de p23 en cítricos a un fragmento de 157 aminoácidos que incluye el dedo de zinc y los motivos básicos flanqueantes de la proteína. La actividad de p23 como supresor de silenciamiento de RNA en N. benthamiana se perdía en todos los mutantes de p23 probados, lo cual indica que la supresión de silenciamiento implica a la mayoría de las regiones de la proteína. Para profundizar más en el papel de p23 en la patogénesis, en un siguiente paso hemos restringido la expresión de transgenes derivados de p23 a células asociadas al floema de lima Mexicana mediante el uso del promotor especifico de floema del virus del moteado amarillo de la comelina (Commelina yellow mottle virus, CoYMV). Se transformó lima Mexicana con construcciones que portaban el gen p23 completo, ya sea de la cepa agresiva de CTV T36 o de la suave T317, o con un fragmento que comprende el dedo de zinc y los motivos básicos flanqueantes de la primera, todas ellas bajo el control bien del promotor de CoYMV o bien del promotor constitutivo 35S. La expresión de estas construcciones en el floema dio lugar a aberraciones semejantes a los síntomas específicos de CTV, pero no a los síntomas inespecíficos observados cuando se expresaba p23 de forma constitutiva. Por otra parte, la apariencia e intensidad de las aberraciones fenotípicas más notorias similares a síntomas inducidos por CTV generadas por la expresión específica en floema del gen p23 se relacionó positivamente con la agresividad de la cepa origen utilizada. Además, la expresión en tejidos floemáticos del fragmento de p23 que comprende el dominio de dedo de zinc y los motivos básicos flanqueantes fue suficiente para inducir síntomas semejantes a los producidos por la infección con CTV, confirmando así que la región N-terminal delimitada por los aminoácidos 1 y 157 podría determinar, al menos en parte, la patogénesis de CTV en lima Mexicana. / Citrus tristeza virus (CTV) is the causal agent of one of the most devastating viral diseases of citrus trees in the world. CTV is phloem-restricted in natural citrus hosts, and has evolved three silencing suppressor proteins acting at intra- (p23 and p20) and inter-cellular level (p20 and p25) to overcome strong host antiviral defense in citrus. RNA interference (RNAi), an approach based on using dsRNA to trigger RNA silencing, has been widely used for generating transgenic plants resistant against viruses. Considering the important role of p23, p20 and p25 in CTV pathogenesis, we have transformed Mexican lime plants with an intron-hairpin vector carrying full untranslatable versions of genes p25, p20, p23 and the 3¿-UTR from the CTV strain T36, to attempt silencing their expression in CTV-infected cells. Complete resistance to viral infection was observed in three transgenic lines, with all their propagations remaining symptomless and virus-free after graft-inoculation with CTV-T36, either in the non-transgenic rootstock or directly in the transgenic scion. Accumulation of transgene-derived siRNAs was necessary but not sufficient for CTV resistance. Challenging immune transformants with a divergent CTV strain resulted in partial breakage of the resistance, stressing the importance of sequence identity in the underlying RNAi mechanism. This is the first evidence that it is possible to achieve full resistance to CTV in a highly sensitive citrus host by targeting simultaneously its three viral silencing suppressors through RNAi. The p23 protein encoded by the virus is additionally an important pathogenicity factor. Ectopic expression of p23 in transgenic citrus plants induces developmental aberrations resembling CTV symptoms. To explore in more detail the role of p23 in CTV pathogenesis, the p23 gene from CTV T36 and three truncated versions thereof under the control of the Cauliflower mosaic virus 35S promoter were used to transform Mexican lime. Only the truncated version expressing amino acids 1 to 157 (p23¿158-209) elicited CTV-like symptoms, similar to, albeit milder than, those incited by expressing the whole p23 protein (209 amino acids), thus delimiting the region responsible for p23 pathogenesis in citrus to a 157 amino acid fragment including the Zn finger and flanking basic motifs of the protein. RNA silencing suppressor activity of p23 in N. benthamiana was abolished by all mutants tested, indicating that silencing suppression involves most p23 regions. To better define the role of p23 in CTV pathogenesis, we next restricted the expression of p23-derived transgenes to phloem-associated cells in Mexican lime plants by means of using the phloem-specific promoter from Commelina yellow mottle virus (CoYMV). Constructions carrying the complete gene p23 from either the severe T36 or the mild T317 CTV strains, or a fragment comprising the zinc-finger and flanking basic motifs from the former, either under the control of the CoYMV promoter or the constitutive 35S promoter were used for genetic transformation of Mexican lime. Expression of these constructs in the phloem incited aberrations resembling CTV-specific symptoms, but not the unspecific symptoms observed when p23 was constitutively expressed. Moreover, appearance and intensity of the most notorious CTV-like phenotypic aberrations induced by the phloem-specific expression of the p23 gene were positively related with the aggressiveness of the source CTV strain used. Additionally, expression in phloem-tissues of the p23 fragment comprising the zinc-finger domain and flanking basic motifs was sufficient to induce CTV-like symptoms, corroborating that the N-terminal region (delimited by amino acids 1 and 157) determines, at least in part, CTV pathogenesis in Mexican lime. / Soler Calvo, N. (2013). Transgenic resistance against Citrus tristeza virus (CTV) and analysis of the viral p23 protein as pathogenicity determinant in citrus [Tesis doctoral no publicada]. Universitat Politècnica de València. https://doi.org/10.4995/Thesis/10251/31631 / TESIS

Transgenic citrus

RNA interference

RNA silencing suppressor

Antiviral defence

Virus resistance

Closterovirus

Intron-hairpin

Small interfering RNAs

Phloem-specific expression

Virus symptoms.