Détection de la mutation T790M de l'exon 20 du gène EGFR dans le cancer du poumon résistant aux inhibiteurs de l'EGFR sur ADN tumoral circulant (biopsie liquide) / Circulating tumour DNA (liquid biopsy)-based EGFR exon 20 T790M mutation detection in advanced non-small cell lung cancer after previous EGFR-directed therapy

DEMANDEUR: Institut universitaire de cardiologie et de pneumologie de Québec Université Laval. OBJECTIF DE L'ANALYSE: L'analyse proposée vise à effectuer la détection de la mutation T790M du gène EGFR (EGFR-T790M) responsable de la résistance aux inhibiteurs de tyrosine kinase (ITK) à partir de l'ADN tumoral circulant d'un patient atteint d'un cancer du poumon non à petites cellules (CPNPC). CONTEXTE DE LA DEMANDE: Approximativement 60 % des patients atteints d'un CPNPC et traités avec un ITK de 1re ou de 2e génération vont développer la mutation de résistance EGFR-T790M et avoir besoin d'un changement thérapeutique. Bien qu'une analyse permettant notamment de détecter cette mutation à partir d'une biopsie tissulaire soit consignée dans le Répertoire québécois et système de mesure des procédures de biologie médicale (ci-après nommé « Répertoire ¼), la présente demande vise à détecter la mutation EGFR-T790M à partir d'échantillons de biopsie liquide, une autre méthode de prélèvement qui permet au patient d'éviter la biopsie tissulaire, les risques qui y sont associés et d'obtenir un changement thérapeutique plus rapidement. NOMBRE D'ANALYSES PRÉVUES: Le demandeur avait originalement prévu que, annuellement, entre 160 et 250 tests seraient nécessaires pour servir la population locale et 2 000 pour l'ensemble du Québec. Or, l'inscription de l'osimertinib en 1re intention de traitement des CPNPC avec mutations activatrices de l'EGFR entraîne une réduction importante du nombre de patients dont l'état nécessitera éventuellement une détection de la mutation EGFRT790M par biopsie liquide selon l'utilisation prévue par le demandeur. Les données de la RAMQ ont révélé que quelques patients continuent de recevoir des ITK de 1re et de 2e génération et sont susceptibles de tirer avantage de cette analyse. MÉTHODOLOGIE: La démarche d'évaluation comprend une revue rapide de la littérature scientifique et grise de même que des consultations menées auprès d'experts et d'autres parties prenantes. Un rapport d'évaluation portant sur la pertinence de recourir à la biopsie liquide dans le même contexte que la présente demande a été publié par Health Quality Ontario (HQO) en mars 2020. Ce rapport comporte une évaluation de la performance diagnostique, de l'utilité clinique, de la sécurité, de l'efficience et de l'impact budgétaire de même qu'une analyse des préférences et des valeurs selon la perspective du patient. Le rapport de HQO a été jugé de bonne qualité méthodologique et constitue la principale source de données de la présente évaluation. L'ensemble des données scientifiques, contextuelles et expérientielles a été interprété et apprécié à l'aide d'une grille-synthèse pour guider le processus de délibération du Comité scientifique des analyses de biologie médicale (CSABM). DONNÉES PUBLIÉES: Performance diagnostique: Selon le rapport d'évaluation de Health Quality Ontario publié en 2020, la concordance des résultats d'une détection de la mutation EGFRT790M entre la biopsie liquide et la biopsie tissulaire varierait de 50 % à 96 %. La sensibilité et la spécificité, la valeur prédictive négative (VPN) et la valeur prédictive positive (VPP) sont respectivement de 68 % [46 % - 88 %], 86 % [62 % - 99 %], 61 % et 89 %. L'utilisation de la droplet digital PCR (ddPCR) augmenterait la fréquence de détection positive de la mutation EGFR-T790M par biopsie liquide. Utilité clinique: HQO n'a repéré aucune donnée sur l'utilisation de la biopsie liquide comme méthode de triage (biopsie liquide + biopsie tissulaire) comparativement à la biopsie tissulaire seule. Toutefois, les études consultées soulignent qu'une fraction des porteurs de la mutation EGFR-T790M (17,8 %) sont identifiés grâce à l'utilisation de la biopsie liquide pour trier les patients résistants aux inhibiteurs des ITK de 1re et 2e génération et pour lesquels la biopsie tissulaire est évitée. En cas de détection de la mutation EGFR-T790M, l'impact sur la prise en charge demeurerait le même quelle que soit la méthode employée car, lorsque la biopsie est positive, le traitement est amorcé. Un gain de survie sans progression de 9,7 mois a été rapporté pour ces deux méthodes. PERSPECTIVE DES PATIENTS: Selon le rapport de HQO, les patients percevraient la biopsie liquide comme une approche plus rapide et plus pratique du fait qu'ils n'auraient pas à attendre plusieurs semaines pour obtenir un rendezvous pour subir une biopsie tissulaire qui pourrait nécessiter un déplacement vers un centre spécialisé plus éloigné. Ils auraient aussi exprimé de la peur et même de la panique relativement au processus de prélèvement de l'échantillon tissulaire qui nécessite une aiguille de gros calibre. POSITIONS ET ORIENTATIONS D'ORGANISMES D'INTÉRÊ: Le National Comprehensive Cancer Network (NCCN) et plusieurs comités d'experts ont recommandé l'utilisation de la biopsie liquide chez un patient qui est médicalement incapable de supporter l'échantillonnage effractif que requiert la biopsie tissulaire. L'ensemble des sociétés savantes recommandent l'utilisation de la biopsie tissulaire lorsque le résultat de la biopsie liquide est négatif. Toutefois, ils soulignent que la biopsie liquide ne devrait pas remplacer la biopsie tissulaire. En revanche, un résultat positif de la biopsie liquide devrait obtenir la même attention qu'un résultat positif de la biopsie tissulaire. ÉVALUATION ÉCONOMIQUE: La biopsie liquide comme méthode de triage est moins coûteuse et plus efficace que la biopsie tissulaire pour détecter la mutation EGFRT790M. Toutefois, lorsqu'on tient compte des avantages cliniques et des coûts liés à l'usage des traitements subséquents, le ratio coûtutilité incrémental est élevé, en raison notamment de l'inefficience de l'osimertinib. Depuis l'inscription aux listes des médicaments de l'osimertinib comme traitement de 1re intention, la population admissible à une biopsie liquide décroît continuellement. Le nombre actuel de personnes qui recevraient des ITK de 1re et 2e génération a été estimé à 32 selon les données de la RAMQ et à 40 en incluant les patients couverts par une assurance privée. Ces analyses estiment les économies de laboratoire à 460 $, mais elles anticipent que 5 patients supplémentaires pourraient recevoir l'osimertinib pour un impact budgétaire net d'environ 537 000 $ au cours des trois prochaines années. POSITION DES EXPERTS CONSULTÉS: Les experts consultés sont favorables à l'utilisation de la biopsie liquide dans le contexte décrit par le demandeur. Ils n'ont pas soulevé d'enjeu en particulier en dehors de la pertinence restreinte de cette analyse étant donné l'inscription récente du traitement osimertinib en 1re intention. L'émergence rapide de nombreuses indications de la biopsie liquide serait imminente et constituerait une révolution technologique et oncologique. ENJEUX PARTICULIERS: Au Québec, l'analyse est principalement employée en contexte de recherche. Des enjeux éthiques et cliniques liés à la biopsie liquide tels que la présence de faux négatifs en raison d'une sensibilité plus faible et la nécessité d'évaluer la survie globale des patients atteints de CPNPC en appliquant cette technique ont également été rapportés dans la littérature. RECOMMANDATION: Suivant une délibération par les membres du CSABM sur l'ensemble de la preuve, y compris la perspective des experts consultés, l'INESSS recommande d'introduire la détection de la mutation EGFR-T790M sur ADN tumoral circulant au Répertoire.

REQUESTER: Institut universitaire de cardiologie et de pneumologie de QuébecUniversité Laval. PURPOSE OF TEST: The test is designed to detect the EGFR gene T790M mutation (EGFRT790M), which is responsible for resistance to tyrosine kinase inhibitors (TKIs), in circulating tumour DNA in non-small cell lung cancer (NSCLC) patients. BACKGROUND TO THE REQUEST: Approximately 60% of NSCLC patients treated with a 1st- or 2ndgeneration TKI will develop the EGFR-T790M resistance mutation and require a change in therapy. Although a test used to detect this mutation from a tissue biopsy is listed in the Répertoire québécois et système de mesure des procédures de biologie médicale (hereinafter the "Répertoire"), the present request concerns the detection of the EGFRT790M mutation in samples obtained by liquid biopsy, an alternative specimen collection method that enables the patient to avoid a tissue biopsy and the associated risks, and to obtain a change in therapy more quickly. EXPECTED NUMBER OF TESTS: The requester had originally anticipated that between 160 and 250 tests would be required annually to serve the local population and 2000 for all of Québec. However, the listing of osimertinib as a 1st-line therapy for NSCLC with EGFR-activating mutations is resulting in a significant reduction in the number of patients who will possibly require EGFRT790M mutation testing by liquid biopsy, based on the use anticipated by the requester. RAMQ data show that a few patients continue to receive 1st- or 2nd-generation TKIs and are likely to benefit from this test. METHODOLOGY: The assessment process included a rapid review of the scientific and grey literature, and consultations with experts and other stakeholders. An assessment report on the relevance of using liquid biopsy in the same context as this request was published by Health Quality Ontario (HQO) in March 2020. The report includes an assessment of its diagnostic performance, clinical utility, safety, cost-effectiveness and budget impact, and an assessment of patient preferences and values. The HQO report was deemed to be of good methodological quality and is the main source of data for the present assessment. All the scientific, contextual and experiential data were interpreted and assessed using a synthesis grid to guide the Comité scientifique des analyses de biologie médicale (CSABM)'s deliberation process. PUBLISHED DATA: Diagnostic performance: According to the Health Quality Ontario assessment report published in 2020, the concordance rate for EGFR-T790M mutation detection results between liquid biopsy and tissue biopsy ranges from 50% to 96%. The sensitivity and specificity, negative predictive value (NPV) and positive predictive value (PPV) are 68% [46%-88%], 86% [62%-99%], 61% and 89%, respectively. The use of droplet digital PCR (ddPCR) appears to increase the rate of positive detection of the EGFR-T790M mutation by liquid biopsy. Clinical utility: HQO did not find any data on the use of liquid biopsy as a triage test (liquid biopsy + tissue biopsy) versus tissue biopsy alone. However, the studies examined note that a proportion of EGFR-T790M mutation carriers (17.8%) are identified through the use of liquid biopsy to detect 1st- or 2nd-generation TKI-resistant patients, who thus avoid a tissue biopsy. If the EGFR-T790M mutation is detected, the impact on management would remain the same, regardless of the method used, because when the biopsy is positive, treatment is initiated. A 9.7-month gain in progression-free survival was reported for both methods. PATIENT PERSPECTIVE: According to the HQO report, patients perceived liquid biopsy as a faster and more convenient approach because they would not have to wait several weeks to get an appointment for a tissue biopsy, which could require a trip to a specialized centre that might be further away. They also expressed fear and even panic about the tissue sample collection procedure, in which a large-gauge needle is used. POSITIONS AND PERSPECTIVES OF ORGANIZATIONS OF INTEREST: The National Comprehensive Cancer Network (NCCN) and a number of expert panels have recommended the use of liquid biopsy in patients who are medically unable to tolerate the invasive specimen collection involved in a tissue biopsy. All the learned societies recommend the use of tissue biopsy when the liquid biopsy result is negative. However, they stress that liquid biopsy should not replace tissue biopsy. In any event, a positive liquid biopsy result should be given the same attention as a positive tissue biopsy result. ECONOMIC EVALUATION: Liquid biopsy as a triage test is less expensive and more effective than tissue biopsy in detecting the EGFR-T790M mutation. However, when the clinical benefits and costs of the subsequent treatments are factored. in, the incremental cost-utility ratio is high, in part because of osimertinib's non-cost-effectiveness. Since the listing of this drug as a 1st-line therapy in the formularies, the liquid biopsy-eligible population has been steadily decreasing. The current number of people receiving 1st- or 2nd-generation TKIs was estimated to be 32, based on RAMQ data, and 40 if patients with private insurance are included. These analyses estimate the laboratory savings at $460, but they anticipate that 5 additional patients could receive osimertinib, for a net budget impact of approximately $537,000 over the next 3 years. POSITION OF THE EXPERTS CONSULTED: The experts consulted support the use of liquid biopsy in the context defined by the requester. They did not raise any specific issues, apart from the limited relevance of this test, given the recent listing of osimertinib as a 1st-line therapy. The rapid emergence of a large number of indications for liquid biopsy appears to be imminent and would constitute a technological and oncologic revolution. SPECIFIC ISSUES: In Québec, liquid biopsy is used primarily in research settings. Ethical and clinical issues associated with this test, such as false negatives due to lower sensitivity and the need to assess overall survival in NSCLC patients in whom this technique is used, have also been reported in the literature. RECOMMENDATION: Based on the deliberation, by the CSABM's members, of all the evidence, including the perspective of the experts consulted, INESSS recommends that circulating tumour DNA-based EGFR-T790M mutation detection be included in the Répertoire

Phosphate (Pi) Starvation Up-Regulated GmCSN5A/B Participates in Anthocyanin Synthesis in Soybean (Glycine max) Dependent on Pi Availability.

Phosphorus (P) is an essential macronutrient for plant growth and development. Among adaptive strategies of plants to P deficiency, increased anthocyanin accumulation is widely observed in plants, which is tightly regulated by a set of genes at transcription levels. However, it remains unclear whether other key regulators might control anthocyanin synthesis through protein modification under P-deficient conditions. In the study, phosphate (Pi) starvation led to anthocyanin accumulations in soybean (Glycine max) leaves, accompanied with increased transcripts of a group of genes involved in anthocyanin synthesis. Meanwhile, transcripts of GmCSN5A/B, two members of the COP9 signalosome subunit 5 (CSN5) family, were up-regulated in both young and old soybean leaves by Pi starvation. Furthermore, overexpressing GmCSN5A and GmCSN5B in Arabidopsis thaliana significantly resulted in anthocyanin accumulations in shoots, accompanied with increased transcripts of gene functions in anthocyanin synthesis including AtPAL, AtCHS, AtF3H, AtF3'H, AtDFR, AtANS, and AtUF3GT only under P-deficient conditions. Taken together, these results strongly suggest that P deficiency leads to increased anthocyanin synthesis through enhancing expression levels of genes involved in anthocyanin synthesis, which could be regulated by GmCSN5A and GmCSN5B.

DEFECTIVE EMBRYO AND MERISTEMS genes are required for cell division and gamete viability in Arabidopsis.

The DEFECTIVE EMBRYO AND MERISTEMS 1 (DEM1) gene encodes a protein of unknown biochemical function required for meristem formation and seedling development in tomato, but it was unclear whether DEM1's primary role was in cell division or alternatively, in defining the identity of meristematic cells. Genome sequence analysis indicates that flowering plants possess at least two DEM genes. Arabidopsis has two DEM genes, DEM1 and DEM2, which we show are expressed in developing embryos and meristems in a punctate pattern that is typical of genes involved in cell division. Homozygous dem1 dem2 double mutants were not recovered, and plants carrying a single functional DEM1 allele and no functional copies of DEM2, i.e. DEM1/dem1 dem2/dem2 plants, exhibit normal development through to the time of flowering but during male reproductive development, chromosomes fail to align on the metaphase plate at meiosis II and result in abnormal numbers of daughter cells following meiosis. Additionally, these plants show defects in both pollen and embryo sac development, and produce defective male and female gametes. In contrast, dem1/dem1 DEM2/dem2 plants showed normal levels of fertility, indicating that DEM2 plays a more important role than DEM1 in gamete viability. The increased importance of DEM2 in gamete viability correlated with higher mRNA levels of DEM2 compared to DEM1 in most tissues examined and particularly in the vegetative shoot apex, developing siliques, pollen and sperm. We also demonstrate that gamete viability depends not only on the number of functional DEM alleles inherited following meiosis, but also on the number of functional DEM alleles in the parent plant that undergoes meiosis. Furthermore, DEM1 interacts with RAS-RELATED NUCLEAR PROTEIN 1 (RAN1) in yeast two-hybrid and pull-down binding assays, and we show that fluorescent proteins fused to DEM1 and RAN1 co-localize transiently during male meiosis and pollen development. In eukaryotes, RAN is a highly conserved GTPase that plays key roles in cell cycle progression, spindle assembly during cell division, reformation of the nuclear envelope following cell division, and nucleocytoplasmic transport. Our results demonstrate that DEM proteins play an essential role in cell division in plants, most likely through an interaction with RAN1.

Mahonia aquifolium Extracts Promote Doxorubicin Effects against Lung Adenocarcinoma Cells In Vitro.

Mahonia aquifolium and its secondary metabolites have been shown to have anticancer potential. We performed MTT, scratch, and colony formation assays; analyzed cell cycle phase distribution and doxorubicin uptake and retention with flow cytometry; and detected alterations in the expression of genes involved in the formation of cell-cell interactions and migration using quantitative real-time PCR following treatment of lung adenocarcinoma cells with doxorubicin, M. aquifolium extracts, or their combination. MTT assay results suggested strong synergistic effects of the combined treatments, and their application led to an increase in cell numbers in the subG1 phase of the cell cycle. Both extracts were shown to prolong doxorubicin retention time in cancer cells, while the application of doxorubicin/extract combination led to a decrease in MMP9 expression. Furthermore, cells treated with doxorubicin/extract combinations were shown to have lower migratory and colony formation potentials than untreated cells or cells treated with doxorubicin alone. The obtained results suggest that nontoxic M. aquifolium extracts can enhance the activity of doxorubicin, thus potentially allowing the application of lower doxorubicin doses in vivo, which may decrease its toxic effects in normal tissues.

Identification and functional analysis of the CorA/MGT/MRS2-type magnesium transporter in banana.

Magnesium (Mg) plays an irreplaceable role in plant growth and development. Mg transporters, especially CorA/MGT/MRS2 family proteins, played a vital role in regulating Mg content in plant cells. Although extensive work has been conducted in model crops, such as Arabidopsis, rice, and maize, the relevant information is scarce in tropical crops. In this study, 10 MaMRS2 genes in banana (Musa acuminata) were isolated from its genome and classified into five distinct clades. The putative physiochemical properties, chromosome location, gene structure, cis-acting elements, and duplication relationships in between these members were analyzed. Complementary experiments revealed that three MaMRS2 gene members (MaMRS2-1, MaMRS2-4, MaMRS2-7), from three distinct phylogenetic branches, were capable of restoring the function of Mg transport in Salmonella typhimurium mutants. Semi-quantitative RT-PCR showed that MaMRS2 genes were differentially expressed in banana cultivar 'Baxijiao' (Musa spp. AAA Cavendish) seedlings. The result was confirmed by real-time PCR analysis, in addition to tissue specific expression, expression differences among MaMRS2 members were also observed under Mg deficiency conditions. These results showed that Mg transporters may play a versatile role in banana growth and development, and our work will shed light on the functional analysis of Mg transporters in banana.

Characterization of the Streptococcus mutans SMU.1703c-SMU.1702c Operon Reveals Its Role in Riboflavin Import and Response to Acid Stress.

Streptococcus mutans utilizes numerous metabolite transporters to obtain essential nutrients in the "feast or famine" environment of the human mouth. S. mutans and most other streptococci are considered auxotrophic for several essential vitamins including riboflavin (vitamin B2), which is used to generate key cofactors and to perform numerous cellular redox reactions. Despite the well-known contributions of this vitamin to central metabolism, little is known about how S. mutans obtains and metabolizes B2 The uncharacterized protein SMU.1703c displays high sequence homology to the riboflavin transporter RibU. Deletion of SMU.1703c hindered S. mutans growth in complex and defined medium in the absence of saturating levels of exogenous riboflavin, whereas deletion of cotranscribed SMU.1702c alone had no apparent effect on growth. Expression of SMU.1703c in a Bacillus subtilis riboflavin auxotroph functionally complemented growth in nonsaturating riboflavin conditions. S. mutans was also able to grow on flavin adenine dinucleotide (FAD) or flavin mononucleotide (FMN) in an SMU.1703c-dependent manner. Deletion of SMU.1703c and/or SMU.1702c impacted S. mutans acid stress tolerance, as all mutants showed improved growth at pH 5.5 compared to that of the wild type when medium was supplemented with saturating riboflavin. Cooccurrence of SMU.1703c and SMU.1702c, a hypothetical PAP2 family acid phosphatase gene, appears unique to the streptococci and may suggest a connection of SMU.1702c to the acquisition or metabolism of flavins within this genus. Identification of SMU.1703c as a RibU-like riboflavin transporter furthers our understanding of how S. mutans acquires essential micronutrients within the oral cavity and how this pathogen successfully competes within nutrient-starved oral biofilms.IMPORTANCE Dental caries form when acid produced by oral bacteria erodes tooth enamel. This process is driven by the fermentative metabolism of cariogenic bacteria, most notably Streptococcus mutans Nutrient acquisition is key in the competitive oral cavity, and many organisms have evolved various strategies to procure carbon sources or necessary biomolecules. B vitamins, such as riboflavin, which many oral streptococci must scavenge from the oral environment, are necessary for survival within the competitive oral cavity. However, the primary mechanism and proteins involved in this process remain uncharacterized. This study is important because it identifies a key step in S. mutans riboflavin acquisition and cofactor generation, which may enable the development of novel anticaries treatment strategies via selective targeting of metabolite transporters.

Antibacterial activity and mode of action of potassium tetraborate tetrahydrate against soft-rot bacterial plant pathogens.

Bacterial soft rot caused by the bacteria Dickeya and Pectobacterium is a destructive disease of vegetables, as well as ornamental plants. Several management options exist to help control these pathogens. Because of the limited success of these approaches, there is a need for the development of alternative methods to reduce losses. In this study, we evaluated the effect of potassium tetraborate tetrahydrate (PTB) on the growth of six Dickeya and Pectobacterium spp. Disc diffusion assays showed that Dickeya spp. and Pectobacterium spp. differ in their sensitivity to PTB. Spontaneous PTB-resistant mutants of Pectobacterium were identified and further investigation of the mechanism of PTB resistance was conducted by full genome sequencing. Point mutations in genes cpdB and supK were found in a single Pectobacterium atrosepticum PTB-resistant mutant. Additionally, point mutations in genes prfB (synonym supK) and prmC were found in two independent Pectobacterium brasiliense PTB-resistant mutants. prfB and prmC encode peptide chain release factor 2 and its methyltransferase, respectively. We propose the disruption of translation activity due to PTB leads to Pectobacterium growth inhibition. The P. atrosepticum PTB-resistant mutant showed altered swimming motility. Disease severity was reduced for P. atrosepticum-inoculated potato stems sprayed with PTB. We discuss the potential risk of selecting for bacterial resistance to this chemical.

Use of split-dihydrofolate reductase for the detection of protein-protein interactions and simultaneous selection of multiple plasmids in Plasmodium falciparum.

Defining protein-protein interactions is fundamental to the understanding of gene function. Protein-fragment complementation assays have been used for the analysis of protein-protein interactions in various organisms. The split-dihydrofolate reductase (DHFR) protein-fragment complementation assay utilises two complementary fragments of the enzyme fused to a pair of potentially interacting proteins. If these proteins interact, the DHFR fragments associate, fold into their native structure, reconstitute their function and confer resistance to antifolate drugs. We show that murine DHFR fragments fused to interacting proteins reconstitute a functional enzyme and confer resistance to the antifolate drug WR99210 in Plasmodium falciparum. These data demonstrate that the split-DHFR method can be used to detect in vivo protein-protein interactions in the parasite. Additionally, we show that split-DHFR fragments can be used as selection markers, permitting simultaneous selection of two plasmids in the presence of a single antifolate drug. Taken together, these experiments show that split-DHFR represents a valuable tool for the characterisation of Plasmodium protein function and genetic manipulation of the parasite.

Verticillium dahliae VdTHI20, Involved in Pyrimidine Biosynthesis, Is Required for DNA Repair Functions and Pathogenicity.

Verticillium dahliae (V. dahliae) infects roots and colonizes the vascular vessels of host plants, significantly reducing the economic yield of cotton and other crops. In this study, the protein VdTHI20, which is involved in the thiamine biosynthesis pathway, was characterized by knocking out the corresponding VdTHI20 gene in V. dahliae via Agrobacterium tumefaciens-mediated transformation (ATMT). The deletion of VdTHI20 resulted in several phenotypic defects in vegetative growth and conidiation and in impaired virulence in tobacco seedlings. We show that VdTHI20 increases the tolerance of V. dahliae to UV damage. The impaired vegetative growth of ΔVdTHI20 mutant strains was restored by complementation with a functional copy of the VdTHI20 gene or by supplementation with additional thiamine. Furthermore, the root infection and colonization of the ΔVdTHI20 mutant strains were suppressed, as indicated by green fluorescent protein (GFP)-labelling under microscope observation. When the RNAi constructs of VdTHI20 were used to transform Nicotiana benthamiana, the transgenic lines expressing dsVdTHI20 showed elevated resistance to V. dahliae. Together, these results suggest that VdTHI20 plays a significant role in the pathogenicity of V. dahliae. In addition, the pathogenesis-related gene VdTHI20 exhibits potential for controlling V. dahliae in important crops.

Complementation of dopaminergic signaling by Pitx3-GDNF synergy induces dopamine secretion by multipotent Ntera2 cells.

Human teratocarcinoma cell line Ntera2 (NT2) expresses dopamine signals and has shown its safe profile for clinical applications. Attempts to restore complete dopaminergic (DAergic) phenotype enabling these cells to secrete dopamine have not been fully successful so far. We applied a blend of gene transfer techniques and a defined medium to convert NT2 cells to fully DAergic. The cells were primarily engineered to overexpress the Pitx3 gene product and then cultured in a growth medium supplemented with knockout serum and retinoic acid to form embroid bodies (EBs). Trypsinization of EB colonies produced single cells ready for differentiation. Neuronal/DAergic induction was promoted by applying conditioned medium taken from engineered human astrocytomas over-secreting glial cell-derived neurotrophic factor (GDNF). Immunocytochemistry, reverse-transcription and real-time polymerase chain reaction analyses confirmed significantly induced expression of molecules involved in dopamine signaling and metabolism including tyrosine hydroxylase, Nurr1, dopamine transporter, and aromatic acid decarboxylase. High-performance liquid chromatography analysis indicated release of dopamine only from a class of fully differentiated cells expressing Pitx3 and exposed to GDNF. In addition, Pitx3 and GDNF additively promoted in vitro neuroprotection against Parkinsonian toxin. One month after transplantation to the striatum of 6-OHDA-leasioned rats, differentiated NT2 cells survived and induced significant increase in striatal volume. Besides, cell implantation improved motor coordination in Parkinson's disease (PD) rat models. Our findings highlight the importance of Pitx3-GDNF interplay in dopamine signaling and indicate that our strategy might be useful for the restoration of DAergic fate of NT2 cells to make them clinically applicable toward cell replacement therapy of PD.

Identified trans-splicing of YELLOW-FRUITED TOMATO 2 encoding the PHYTOENE SYNTHASE 1 protein alters fruit color by map-based cloning, functional complementation and RACE.

KEY MESSAGE: Found a trans-splicing of PHYTOENE SYNTHASE 1 alters tomato fruit color by map-based cloning, functional complementation and RACE providing an insight into fruit color development. Color is an important fruit quality trait and a major determinant of the economic value of tomato (Solanum lycopersicum). Fruit color inheritance in a yellow-fruited cherry tomato (cv. No. 22), named yellow-fruited tomato 2 (yft2), was shown to be controlled by a single recessive gene, YFT2. The YFT2 gene was mapped in a 95.7 kb region on chromosome 3, and the candidate gene, PHYTOENE SYNTHASE 1 (PSY1), was confirmed by functional complementation analysis. Constitutive over expression of PSY1 in yft2 increased the accumulation of carotenoids and resulted in a red fruit color, while no causal mutation was detected in the YFT2 allele of yft2, compared with red-fruited SL1995 cherry tomato or cultivated variety (cv. M82). Expression of YFT2 3' region in yft2 was significantly lower than in SL1995, and further studies revealed a difference in YFT2 post-transcriptional processing in yft2 compared with SL1995 and cv. M82, resulting in a longer YFT2 transcript. The alternatively trans-spliced allele of YFT2 in yft2 is predicted to encode a novel LT-YFT2 protein of 432 amino acid (AA) residues, compared to the 412 AA YFT2 protein of SL1995. The trans-spliced event also resulted in significantly down regulated expression of YFT2 in yft2 tomato, and the YFT2 allele suppressed expression of the downstream genes involved in the carotenoid biosynthesis pathway and carotenoids synthesis by a mechanism of the feed-forward regulation. In conclusion, we found that trans-splicing of YFT2 alters tomato fruit color, providing new insights into fruit color development.

Virulence of Agrobacterium tumefaciens requires lipid homeostasis mediated by the lysyl-phosphatidylglycerol hydrolase AcvB.

Agrobacterium tumefaciens transfers oncogenic T-DNA via the type IV secretion system (T4SS) into plants causing tumor formation. The acvB gene encodes a virulence factor of unknown function required for plant transformation. Here we specify AcvB as a periplasmic lysyl-phosphatidylglycerol (L-PG) hydrolase, which modulates L-PG homeostasis. Through functional characterization of recombinant AcvB variants, we showed that the C-terminal domain of AcvB (residues 232-456) is sufficient for full enzymatic activity and defined key residues for catalysis. Absence of the hydrolase resulted in ~10-fold increase in L-PG in Agrobacterium membranes and abolished T-DNA transfer and tumor formation. Overproduction of the L-PG synthase gene (lpiA) in wild-type A. tumefaciens resulted in a similar increase in the L-PG content (~7-fold) and a virulence defect even in the presence of intact AcvB. These results suggest that elevated L-PG amounts (either by overproduction of the synthase or absence of the hydrolase) are responsible for the virulence phenotype. Gradually increasing the L-PG content by complementation with different acvB variants revealed that cellular L-PG levels above 3% of total phospholipids interfere with T-DNA transfer. Cumulatively, this study identified AcvB as a novel virulence factor required for membrane lipid homeostasis and T-DNA transfer.

The Meningococcal Cysteine Transport System Plays a Crucial Role in Neisseria meningitidis Survival in Human Brain Microvascular Endothelial Cells.

While Neisseria meningitidis typically exists in an asymptomatic nasopharyngeal carriage state, it may cause potentially lethal diseases in humans, such as septicemia or meningitis, by invading deeper sites in the body. Since the nutrient compositions of human cells are not always conducive to meningococci, N. meningitidis needs to exploit nutrients from host environments. In the present study, the utilization of cysteine by the meningococcal cysteine transport system (CTS) was analyzed for the pathogenesis of meningococcal infections. A N. meningitidis strain deficient in one of the three cts genes annotated as encoding cysteine-binding protein (cbp) exhibited approximately 100-fold less internalization into human brain microvascular endothelial cells (HBMEC) than the wild-type strain. This deficiency was restored by complementation with the three cts genes together, and the infectious phenotype of HBMEC internalization correlated with cysteine uptake activity. However, efficient accumulation of ezrin was observed beneath the cbp mutant. The intracellular survival of the cbp mutant in HBMEC was markedly reduced, whereas equivalent reductions of glutathione concentrations and of resistance to reactive oxygens species in the cbp mutant were not found. The cbp mutant grew well in complete medium but not in synthetic medium supplemented with less than 300 µM cysteine. Taking cysteine concentrations in human cells and other body fluids, including blood and cerebrospinal fluid, into consideration, the present results collectively suggest that the meningococcal CTS is crucial for the acquisition of cysteine from human cells and participates in meningococcal nutrient virulence.IMPORTANCENeisseria meningitidis colonizes at a nasopharynx of human as a unique host and has many strains that are auxotrophs for amino acids for their growth. To cause invasive meningococcal diseases (IMD) such as sepsis and meningitis, N. meningitidis passes through epithelial and endothelial barriers and infiltrates into blood and cerebrospinal fluid as well as epithelial and endothelial cells. However, meningococcal nutrients, including cysteine, become less abundant when it more deeply infiltrates the human body even during inflammation, such that N. meningitidis has to acquire nutrients in order to survive/persist, disseminate, and proliferate in humans. This was the first study to examine the relationship between meningococcal cysteine acquisition and the pathogenesis of meningococcal infections. The results of the present study provide insights into the mechanisms by which pathogens with auxotrophs acquire nutrients in hosts and may also contribute to the development of treatments and prevention strategies for IMD.

OsGPAT3 Plays a Critical Role in Anther Wall Programmed Cell Death and Pollen Development in Rice.

In flowering plants, ideal male reproductive development requires the systematic coordination of various processes, in which timely differentiation and degradation of the anther wall, especially the tapetum, is essential for both pollen formation and anther dehiscence. Here, we show that OsGPAT3, a conserved glycerol-3-phosphate acyltransferase gene, plays a critical role in regulating anther wall degradation and pollen exine formation. The gpat3-2 mutant had defective synthesis of Ubisch bodies, delayed programmed cell death (PCD) of the inner three anther layers, and abnormal degradation of micropores/pollen grains, resulting in failure of pollen maturation and complete male sterility. Complementation and clustered regularly interspaced short palindromic repeats (CRISPR)/CRISPR-associated 9 (Cas9) experiments demonstrated that OsGPAT3 is responsible for the male sterility phenotype. Furthermore, the expression level of tapetal PCD-related and nutrient metabolism-related genes changed significantly in the gpat3-2 anthers. Based on these genetic and cytological analyses, OsGPAT3 is proposed to coordinate the differentiation and degradation of the anther wall and pollen grains in addition to regulating lipid biosynthesis. This study provides insights for understanding the function of GPATs in regulating rice male reproductive development, and also lays a theoretical basis for hybrid rice breeding.

Natural variation in acyl editing is a determinant of seed storage oil composition.

Seeds exhibit wide variation in the fatty acid composition of their storage oil. However, the genetic basis of this variation is only partially understood. Here we have used a multi-parent advanced generation inter-cross (MAGIC) population to study the genetic control of fatty acid chain length in Arabidopsis thaliana seed oil. We mapped four quantitative trait loci (QTL) for the quantity of the major very long chain fatty acid species 11-eicosenoic acid (20:1), using multiple QTL modelling. Surprisingly, the main-effect QTL does not coincide with FATTY ACID ELONGASE 1 and a parallel genome wide association study suggested that LYSOPHOSPHATIDYLCHOLINE ACYLTRANSFERASE 2 (LPCAT2) is a candidate for this QTL. Regression analysis also suggested that LPCAT2 expression and 20:1 content in seeds of the 19 MAGIC founder accessions are related. LPCAT is a key component of the Lands cycle; an acyl editing pathway that enables acyl-exchange between the acyl-Coenzyme A and phosphatidylcholine precursor pools used for microsomal fatty acid elongation and desaturation, respectively. We Mendelianised the main-effect QTL using biparental chromosome segment substitution lines and carried out complementation tests to show that a single cis-acting polymorphism in the LPCAT2 promoter causes the variation in seed 20:1 content, by altering the LPCAT2 expression level and total LPCAT activity in developing siliques. Our work establishes that oilseed species exhibit natural variation in the enzymic capacity for acyl editing and this contributes to the genetic control of storage oil composition.

A PECTIN METHYLESTERASE gene at the maize Ga1 locus confers male function in unilateral cross-incompatibility.

Unilateral cross-incompatibility (UCI) is a unidirectional inter/intra-population reproductive barrier when both parents are self-compatible. Maize Gametophyte factor1 (Ga1) is an intraspecific UCI system and has been utilized in breeding. However, the mechanism underlying maize UCI specificity has remained mysterious for decades. Here, we report the cloning of ZmGa1P, a pollen-expressed PECTIN METHYLESTERASE (PME) gene at the Ga1 locus that can confer the male function in the maize UCI system. Homozygous transgenic plants expressing ZmGa1P in a ga1 background can fertilize Ga1-S plants and can be fertilized by pollen of ga1 plants. ZmGa1P protein is predominantly localized to the apex of growing pollen tubes and may interact with another pollen-specific PME protein, ZmPME10-1, to maintain the state of pectin methylesterification required for pollen tube growth in Ga1-S silks. Our study discloses a PME-mediated UCI mechanism and provides a tool to manipulate hybrid breeding.

Two Genes Encoding a Bacterial-Type ATP-Binding Cassette Transporter are Implicated in Aluminum Tolerance in Buckwheat.

Buckwheat (Fagopyrum esculentum Moench) shows high tolerance to aluminum (Al) toxicity, but the molecular mechanisms underlying its high Al tolerance are poorly understood. Here, we functionally characterized two genes (FeSTAR1 and FeSTAR2), which encode a nucleotide-binding domain and a membrane domain, respectively, of a bacterial-type ATP-binding cassette (ABC) transporter. The expression of FeSTAR1 and FeSTAR2 was induced by Al in both roots and leaves with higher expression in the roots. Spatial and tissue-specific expression analysis showed that the Al-induced expression of these two genes was found in both the root tips and basal root regions with higher expression in the root outer cell layers. The expression was neither induced by other metals including Cd and La nor by low pH and phosphorus-deficiency. FeSTAR1 and FeSTAR2 were present in a single copy in the genome, but the Al-induced transcript copy number of FeSTAR1 and FeSTAR2 was much higher than their homologous genes in rice and Arabidopsis. FeSTAR1 and FeSTAR2 form a complex when co-expressed in onion epidermal cells. Introduction of FeSTAR1 and FeSTAR2 into Arabidopsis mutants atstar1 and als3/atstar2, respectively, rescued the sensitivity of the mutants to Al. Taken together, our results indicate that FeSTAR1 and FeSTAR2 are involved in Al tolerance and that their high expression level may contribute to high Al tolerance in buckwheat.

Polyamines are required for normal growth in Sinorhizobium meliloti.

Polyamines (PAs) are ubiquitous polycations derived from basic l-amino acids whose physiological roles are still being defined. Their biosynthesis and functions in nitrogen-fixing rhizobia such as Sinorhizobium meliloti have not been extensively investigated. Thin layer chromatographic and mass spectrometric analyses showed that S. meliloti Rm8530 produces the PAs, putrescine (Put), spermidine (Spd) and homospermidine (HSpd), in their free forms and norspermidine (NSpd) in a form bound to macromolecules. The S. meliloti genome encodes two putative ornithine decarboxylases (ODC) for Put synthesis. Activity assays with the purified enzymes showed that ODC2 (SMc02983) decarboxylates both ornithine and lysine. ODC1 (SMa0680) decarboxylates only ornithine. An odc1 mutant was similar to the wild-type in ODC activity, PA production and growth. In comparison to the wild-type, an odc2 mutant had 45 % as much ODC activity and its growth rates were reduced by 42, 14 and 44 % under non-stress, salt stress or acid stress conditions, respectively. The odc2 mutant produced only trace levels of Put, Spd and HSpd. Wild-type phenotypes were restored when the mutant was grown in cultures supplemented with 1 mM Put or Spd or when the odc2 gene was introduced in trans. odc2 gene expression was increased under acid stress and reduced under salt stress and with exogenous Put or Spd. An odc1 odc2 double mutant had phenotypes similar to the odc2 mutant. These results indicate that ODC2 is the major enzyme for Put synthesis in S. meliloti and that PAs are required for normal growth in vitro.

FreB is involved in the ferric metabolism and multiple pathogenicity-related traits of Verticillium dahliae.

Ferric reductases are integral membrane proteins involved in the reduction of environmental ferric iron into the biologically available ferrous iron. In the most overwhelming phytopathogenic fungus, Verticillium dahliae, these ferric reductase are not studied in details. In this study we explored the role of FreB gene (VDAG_06616) in the ferric reduction and virulence of V. dahliae by generating the knockout mutants (ΔFreB) and complementary strains (ΔFreB-C) using protoplast transformation. When cultured on media supplemented with FeSO4, FeCl3 and no iron, ΔFreB exhibited significantly reduced growth and spore production especially on media with no iron. Transmembrane ferric reductase activity of ΔFreB was decreased up to 50% than wild type strains (Vd-wt). The activity was fully restored in ΔFreB-C. Meanwhile, the expression levels of other related genes (Frect-4, Frect-5, Frect-6 and Met) were obviously increased in ΔFreB. Compared with the Vd-wt and ΔFreB-C, ΔFreB-1 and ΔFreB-2 were impaired in colony diameter and spore number on different carbon sources (starch, sucrose, galactose and xylose). ΔFreB-1 and ΔFreB-2 were also highly sensitive to oxidative stress as revealed by the plate diffusion assay when 100 µM H2O2 was applied to the fungal culture. When Nicotiana benthamiana plants were inoculated, ΔFreB exhibited less disease symptoms than Vd-wt and ΔFreB-C. In conclusion, the present findings not only indicate that FreB mediates the ferric metabolism and is required for the full virulence in V. dahliae, but would also accelerate future investigation to uncover the pathogenic mechanism of this fungus.

Pollen-Expressed Leucine-Rich Repeat Extensins Are Essential for Pollen Germination and Growth.

During pollen tube growth, the walls of the tube provide the mechanical strength resisting turgor pressure to protect two sperm cells. Cell wall proteins may play an important role in this process. Pollen tube cell wall proteins known as leucine-rich repeat extensins (LRXs) harbor a leucine-rich repeat domain and an extensin domain. In this study, the functions of four pollen-expressed LRXs, LRX8, LRX9, LRX10, and LRX11 (LRX8-11), were characterized in Arabidopsis (Arabidopsis thaliana). LRX8-11 displayed a consistent expression pattern in mature pollen grains and pollen tubes. In a phenotypic analysis of four single mutants, six double mutants, four triple mutants, and a quadruple mutant, the triple and quadruple mutant plants displayed markedly reduced seed set and decreased male transmission efficiency accompanied by compromised pollen germination and pollen tube growth. GFP-fused LRX8, LRX10, and LRX11 were found to be localized to pollen tube cell walls. An immunohistochemical analysis of pollen tube cell wall polysaccharides showed an increase in the amount of rhamnogalacturonan I in the subapical walls of pollen tubes of the lrx9 lrx10 lrx11 and lrx8 lrx9 lrx11 mutants and a decrease in the content of fucosylated xyloglucans in lrx8 lrx9 lrx11 compared with wild-type plants. Moreover, the callose content in the apical walls of pollen tubes increased in the lrx8 lrx9 lrx11 mutant. In conclusion, we propose that LRX8-11 function synergistically to maintain pollen tube cell wall integrity; thus, they play critical roles in pollen germination and pollen tube growth.