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  1. Article ; Online: A Patient-to-Model-to-Patient (PMP) Cancer Drug Discovery Protocol for Identifying and Validating Therapeutic Agents Targeting Tumor Regulatory Architecture.

    Laise, Pasquale / Bosker, Gideon / Califano, Andrea / Alvarez, Mariano J

    Current protocols

    2022  Volume 2, Issue 9, Page(s) e544

    Abstract: The current Achilles heel of cancer drug discovery is the inability to forge precise and predictive connections among mechanistic drivers of the cancer cell state, therapeutically significant molecular targets, effective drugs, and responsive patient ... ...

    Abstract The current Achilles heel of cancer drug discovery is the inability to forge precise and predictive connections among mechanistic drivers of the cancer cell state, therapeutically significant molecular targets, effective drugs, and responsive patient subgroups. Although advances in molecular biology have helped identify molecular markers and stratify patients into molecular subtypes, these associational strategies typically fail to provide a mechanistic rationale to identify cancer vulnerabilities. Recently, integrative systems biology methodologies have been used to reverse engineer cellular networks and identify master regulators (MRs), proteins whose activity is both necessary and sufficient to implement phenotypic states under physiological and pathological conditions, which are organized into highly interconnected regulatory modules called tumor checkpoints. Because of their functional relevance, MRs represent ideal pharmacological targets and biomarkers. Here, we present a six-step patient-to-model-to-patient protocol that employs computational and experimental methodologies to reconstruct and interrogate the regulatory logic of human cancer cells for identifying and therapeutically targeting the tumor checkpoint with novel as well as existing pharmacological agents. This protocol systematically identifies, from specific patient tumor samples, the MRs that comprise the tumor checkpoint. Then, it identifies in vitro and in vivo models that, by recapitulating the patient's tumor checkpoint, constitute the appropriate cell lines and xenografts to further elucidate the tissue context-specific drug mechanism of action (MOA) and permit precise, biomarker-based preclinical validations of drug efficacy. The combination of determination of a drug's context-specific MOA and precise identification of patients' tumor checkpoints provides a personalized, mechanism-based biomarker to enrich prospective clinical trials with patients likely to respond. © 2022 The Authors. Current Protocols published by Wiley Periodicals LLC.
    MeSH term(s) Antineoplastic Agents/pharmacology ; Biomarkers ; Drug Discovery ; Humans ; Neoplasms/drug therapy ; Prospective Studies
    Chemical Substances Antineoplastic Agents ; Biomarkers
    Language English
    Publishing date 2022-09-09
    Publishing country United States
    Document type Journal Article
    ISSN 2691-1299
    ISSN (online) 2691-1299
    DOI 10.1002/cpz1.544
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  2. Article: EZH2-Mediated H3K27me3 Targets Transcriptional Circuits of Neuronal Differentiation.

    Buontempo, Serena / Laise, Pasquale / Hughes, James M / Trattaro, Sebastiano / Das, Vivek / Rencurel, Chantal / Testa, Giuseppe

    Frontiers in neuroscience

    2022  Volume 16, Page(s) 814144

    Abstract: The Polycomb Repressive Complex 2 (PRC2) plays important roles in the epigenetic regulation of cellular development and differentiation through H3K27me3-dependent transcriptional repression. Aberrant PRC2 activity has been associated with cancer and ... ...

    Abstract The Polycomb Repressive Complex 2 (PRC2) plays important roles in the epigenetic regulation of cellular development and differentiation through H3K27me3-dependent transcriptional repression. Aberrant PRC2 activity has been associated with cancer and neurodevelopmental disorders, particularly with respect to the malfunction of sits catalytic subunit EZH2. Here, we investigated the role of the EZH2-mediated H3K27me3 apposition in neuronal differentiation. We made use of a transgenic mouse model harboring
    Language English
    Publishing date 2022-05-12
    Publishing country Switzerland
    Document type Journal Article
    ZDB-ID 2411902-7
    ISSN 1662-453X ; 1662-4548
    ISSN (online) 1662-453X
    ISSN 1662-4548
    DOI 10.3389/fnins.2022.814144
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  3. Article: Elucidation and Pharmacologic Targeting of Master Regulator Dependencies in Coexisting Diffuse Midline Glioma Subpopulations.

    Fernández, Ester Calvo / Tomassoni, Lorenzo / Zhang, Xu / Wang, Junqiang / Obradovic, Aleksandar / Laise, Pasquale / Griffin, Aaron T / Vlahos, Lukas / Minns, Hanna E / Morales, Diana V / Simmons, Christian / Gallitto, Matthew / Wei, Hong-Jian / Martins, Timothy J / Becker, Pamela S / Crawford, John R / Tzaridis, Theophilos / Wechsler-Reya, Robert J / Garvin, James /
    Gartrell, Robyn D / Szalontay, Luca / Zacharoulis, Stergios / Wu, Cheng-Chia / Zhang, Zhiguo / Califano, Andrea / Pavisic, Jovana

    bioRxiv : the preprint server for biology

    2024  

    Abstract: Diffuse Midline Gliomas (DMGs) are universally fatal, primarily pediatric malignancies affecting the midline structures of the central nervous system. Despite decades of clinical trials, treatment remains limited to palliative radiation therapy. A major ... ...

    Abstract Diffuse Midline Gliomas (DMGs) are universally fatal, primarily pediatric malignancies affecting the midline structures of the central nervous system. Despite decades of clinical trials, treatment remains limited to palliative radiation therapy. A major challenge is the coexistence of molecularly distinct malignant cell states with potentially orthogonal drug sensitivities. To address this challenge, we leveraged established network-based methodologies to elucidate Master Regulator (MR) proteins representing mechanistic, non-oncogene dependencies of seven coexisting subpopulations identified by single-cell analysis-whose enrichment in essential genes was validated by pooled CRISPR/Cas9 screens. Perturbational profiles of 372 clinically relevant drugs helped identify those able to invert the activity of subpopulation-specific MRs for follow-up
    Language English
    Publishing date 2024-03-17
    Publishing country United States
    Document type Preprint
    DOI 10.1101/2024.03.17.585370
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  4. Article ; Online: A model for network-based identification and pharmacological targeting of aberrant, replication-permissive transcriptional programs induced by viral infection.

    Laise, Pasquale / Stanifer, Megan L / Bosker, Gideon / Sun, Xiaoyun / Triana, Sergio / Doldan, Patricio / La Manna, Federico / De Menna, Marta / Realubit, Ronald B / Pampou, Sergey / Karan, Charles / Alexandrov, Theodore / Kruithof-de Julio, Marianna / Califano, Andrea / Boulant, Steeve / Alvarez, Mariano J

    Communications biology

    2022  Volume 5, Issue 1, Page(s) 714

    Abstract: SARS-CoV-2 hijacks the host cell transcriptional machinery to induce a phenotypic state amenable to its replication. Here we show that analysis of Master Regulator proteins representing mechanistic determinants of the gene expression signature induced by ...

    Abstract SARS-CoV-2 hijacks the host cell transcriptional machinery to induce a phenotypic state amenable to its replication. Here we show that analysis of Master Regulator proteins representing mechanistic determinants of the gene expression signature induced by SARS-CoV-2 in infected cells revealed coordinated inactivation of Master Regulators enriched in physical interactions with SARS-CoV-2 proteins, suggesting their mechanistic role in maintaining a host cell state refractory to virus replication. To test their functional relevance, we measured SARS-CoV-2 replication in epithelial cells treated with drugs predicted to activate the entire repertoire of repressed Master Regulators, based on their experimentally elucidated, context-specific mechanism of action. Overall, 15 of the 18 drugs predicted to be effective by this methodology induced significant reduction of SARS-CoV-2 replication, without affecting cell viability. This model for host-directed pharmacological therapy is fully generalizable and can be deployed to identify drugs targeting host cell-based Master Regulator signatures induced by virtually any pathogen.
    MeSH term(s) COVID-19/drug therapy ; Humans ; SARS-CoV-2 ; Transcriptome ; Virus Diseases ; Virus Replication
    Language English
    Publishing date 2022-07-19
    Publishing country England
    Document type Journal Article ; Research Support, N.I.H., Extramural ; Research Support, Non-U.S. Gov't
    ISSN 2399-3642
    ISSN (online) 2399-3642
    DOI 10.1038/s42003-022-03663-8
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  5. Article: A Model for Network-Based Identification and Pharmacological Targeting of Aberrant, Replication-Permissive Transcriptional Programs Induced by Viral Infection.

    Laise, Pasquale / Stanifer, Megan L / Bosker, Gideon / Sun, Xiaoyun / Triana, Sergio / Doldan, Patricio / La Manna, Federico / De Menna, Marta / Realubit, Ronald B / Pampou, Sergey / Karan, Charles / Alexandrov, Theodore / Kruithof-de Julio, Marianna / Califano, Andrea / Boulant, Steeve / Alvarez, Mariano J

    Research square

    2022  

    Abstract: Precise characterization and targeting of host cell transcriptional machinery hijacked by viral infection remains challenging. Here, we show that SARS-CoV-2 hijacks the host cell transcriptional machinery to induce a phenotypic state amenable to its ... ...

    Abstract Precise characterization and targeting of host cell transcriptional machinery hijacked by viral infection remains challenging. Here, we show that SARS-CoV-2 hijacks the host cell transcriptional machinery to induce a phenotypic state amenable to its replication. Specifically, analysis of Master Regulator (MR) proteins representing mechanistic determinants of the gene expression signature induced by SARS-CoV-2 in infected cells revealed coordinated inactivation of MRs enriched in physical interactions with SARS-CoV-2 proteins, suggesting their mechanistic role in maintaining a host cell state refractory to virus replication. To test their functional relevance, we measured SARS-CoV-2 replication in epithelial cells treated with drugs predicted to activate the entire repertoire of repressed MRs, based on their experimentally elucidated, context-specific mechanism of action. Overall, >80% of drugs predicted to be effective by this methodology induced significant reduction of SARS-CoV-2 replication, without affecting cell viability. This model for host-directed pharmacological therapy is fully generalizable and can be deployed to identify drugs targeting host cell-based MR signatures induced by virtually any pathogen.
    Language English
    Publishing date 2022-02-04
    Publishing country United States
    Document type Preprint
    DOI 10.21203/rs.3.rs-1287631/v1
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  6. Article ; Online: Tff2 defines transit-amplifying pancreatic acinar progenitors that lack regenerative potential and are protective against Kras-driven carcinogenesis.

    Jiang, Zhengyu / Wu, Feijing / Laise, Pasquale / Takayuki, Tanaka / Na, Fu / Kim, Woosook / Kobayashi, Hiroki / Chang, Wenju / Takahashi, Ryota / Valenti, Giovanni / Sunagawa, Masaki / White, Ruth A / Macchini, Marina / Renz, Bernhard W / Middelhoff, Moritz / Hayakawa, Yoku / Dubeykovskaya, Zinaida A / Tan, Xiangtian / Chu, Timothy H /
    Nagar, Karan / Tailor, Yagnesh / Belin, Bryana R / Anand, Akanksha / Asfaha, Samuel / Finlayson, Michael O / Iuga, Alina C / Califano, Andrea / Wang, Timothy C

    Cell stem cell

    2023  Volume 30, Issue 8, Page(s) 1091–1109.e7

    Abstract: While adult pancreatic stem cells are thought not to exist, it is now appreciated that the acinar compartment harbors progenitors, including tissue-repairing facultative progenitors (FPs). Here, we study a pancreatic acinar population marked by trefoil ... ...

    Abstract While adult pancreatic stem cells are thought not to exist, it is now appreciated that the acinar compartment harbors progenitors, including tissue-repairing facultative progenitors (FPs). Here, we study a pancreatic acinar population marked by trefoil factor 2 (Tff2) expression. Long-term lineage tracing and single-cell RNA sequencing (scRNA-seq) analysis of Tff2-DTR-CreER
    MeSH term(s) Humans ; Pancreatic Neoplasms/genetics ; Trefoil Factor-2/metabolism ; Carcinoma, Pancreatic Ductal/genetics ; Carcinoma, Pancreatic Ductal/metabolism ; Pancreas/metabolism ; Acinar Cells/metabolism ; Carcinogenesis/genetics ; Carcinogenesis/metabolism
    Chemical Substances Trefoil Factor-2
    Language English
    Publishing date 2023-08-02
    Publishing country United States
    Document type Journal Article ; Research Support, Non-U.S. Gov't ; Research Support, N.I.H., Extramural
    ZDB-ID 2375354-7
    ISSN 1875-9777 ; 1934-5909
    ISSN (online) 1875-9777
    ISSN 1934-5909
    DOI 10.1016/j.stem.2023.07.002
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  7. Article: The Host Cell ViroCheckpoint: Identification and Pharmacologic Targeting of Novel Mechanistic Determinants of Coronavirus-Mediated Hijacked Cell States.

    Laise, Pasquale / Bosker, Gideon / Sun, Xiaoyun / Shen, Yao / Douglass, Eugene F / Karan, Charles / Realubit, Ronald B / Pampou, Sergey / Califano, Andrea / Alvarez, Mariano J

    bioRxiv : the preprint server for biology

    2020  

    Abstract: Most antiviral agents are designed to target virus-specific proteins and mechanisms rather than the host cell proteins that are critically dysregulated following virus-mediated reprogramming of the host cell transcriptional state. To overcome these ... ...

    Abstract Most antiviral agents are designed to target virus-specific proteins and mechanisms rather than the host cell proteins that are critically dysregulated following virus-mediated reprogramming of the host cell transcriptional state. To overcome these limitations, we propose that elucidation and pharmacologic targeting of host cell Master Regulator proteins-whose aberrant activities govern the reprogramed state of coronavirus-infected cells-presents unique opportunities to develop novel mechanism-based therapeutic approaches to antiviral therapy, either as monotherapy or as a complement to established treatments. Specifically, we propose that a small module of host cell Master Regulator proteins (ViroCheckpoint) is hijacked by the virus to support its efficient replication and release. Conventional methodologies are not well suited to elucidate these potentially targetable proteins. By using the VIPER network-based algorithm, we successfully interrogated 12h, 24h, and 48h signatures from Calu-3 lung adenocarcinoma cells infected with SARS-CoV, to elucidate the time-dependent reprogramming of host cells and associated Master Regulator proteins. We used the NYS CLIA-certified Darwin OncoTreat algorithm, with an existing database of RNASeq profiles following cell perturbation with 133 FDA-approved and 195 late-stage experimental compounds, to identify drugs capable of virtually abrogating the virus-induced Master Regulator signature. This approach to drug prioritization and repurposing can be trivially extended to other viral pathogens, including SARS-CoV-2, as soon as the relevant infection signature becomes available.
    Keywords covid19
    Language English
    Publishing date 2020-05-17
    Publishing country United States
    Document type Preprint
    DOI 10.1101/2020.05.12.091256
    Database MEDical Literature Analysis and Retrieval System OnLINE

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  8. Article ; Online: RNAontheBENCH: computational and empirical resources for benchmarking RNAseq quantification and differential expression methods.

    Germain, Pierre-Luc / Vitriolo, Alessandro / Adamo, Antonio / Laise, Pasquale / Das, Vivek / Testa, Giuseppe

    Nucleic acids research

    2016  Volume 44, Issue 11, Page(s) 5054–5067

    Abstract: RNA sequencing (RNAseq) has become the method of choice for transcriptome analysis, yet no consensus exists as to the most appropriate pipeline for its analysis, with current benchmarks suffering important limitations. Here, we address these challenges ... ...

    Abstract RNA sequencing (RNAseq) has become the method of choice for transcriptome analysis, yet no consensus exists as to the most appropriate pipeline for its analysis, with current benchmarks suffering important limitations. Here, we address these challenges through a rich benchmarking resource harnessing (i) two RNAseq datasets including ERCC ExFold spike-ins; (ii) Nanostring measurements of a panel of 150 genes on the same samples; (iii) a set of internal, genetically-determined controls; (iv) a reanalysis of the SEQC dataset; and (v) a focus on relative quantification (i.e. across-samples). We use this resource to compare different approaches to each step of RNAseq analysis, from alignment to differential expression testing. We show that methods providing the best absolute quantification do not necessarily provide good relative quantification across samples, that count-based methods are superior for gene-level relative quantification, and that the new generation of pseudo-alignment-based software performs as well as established methods, at a fraction of the computing time. We also assess the impact of library type and size on quantification and differential expression analysis. Finally, we have created a R package and a web platform to enable the simple and streamlined application of this resource to the benchmarking of future methods.
    MeSH term(s) Computational Biology/methods ; Computer Simulation ; Gene Dosage ; Gene Expression Profiling/methods ; Gene Expression Regulation ; Gene Library ; Reproducibility of Results ; Sequence Analysis, RNA/methods ; Software ; Transcriptome ; Web Browser
    Language English
    Publishing date 2016-05-17
    Publishing country England
    Document type Journal Article ; Research Support, Non-U.S. Gov't
    ZDB-ID 186809-3
    ISSN 1362-4962 ; 1362-4954 ; 0301-5610 ; 0305-1048
    ISSN (online) 1362-4962 ; 1362-4954
    ISSN 0301-5610 ; 0305-1048
    DOI 10.1093/nar/gkw448
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  9. Article ; Online: Adult enteric Dclk1-positive glial and neuronal cells reveal distinct responses to acute intestinal injury.

    Middelhoff, Moritz / Valenti, Giovanni / Tomassoni, Lorenzo / Ochiai, Yosuke / Belin, Bryana / Takahashi, Ryota / Malagola, Ermanno / Nienhüser, Henrik / Finlayson, Michael / Hayakawa, Yoku / Zamechek, Leah B / Renz, Bernhard W / Westphalen, C Benedikt / Quante, Michael / Margolis, Kara G / Sims, Peter A / Laise, Pasquale / Califano, Andrea / Rao, Meenakshi /
    Gershon, Michael D / Wang, Timothy C

    American journal of physiology. Gastrointestinal and liver physiology

    2022  Volume 322, Issue 6, Page(s) G583–G597

    Abstract: Intestinal ganglionic cells in the adult enteric nervous system (ENS) are continually exposed to stimuli from the surrounding microenvironment and need at times to respond to disturbed homeostasis following acute intestinal injury. The kinase DCLK1 and ... ...

    Abstract Intestinal ganglionic cells in the adult enteric nervous system (ENS) are continually exposed to stimuli from the surrounding microenvironment and need at times to respond to disturbed homeostasis following acute intestinal injury. The kinase DCLK1 and intestinal Dclk1-positive cells have been reported to contribute to intestinal regeneration. Although Dclk1-positive cells are present in adult enteric ganglia, their cellular identity and response to acute injury have not been investigated in detail. Here, we reveal the presence of distinct Dclk1-tdTom+/CD49b+ glial-like and Dclk1-tdTom+/CD49b- neuronal cell types in adult myenteric ganglia. These ganglionic cells demonstrate distinct patterns of tracing over time yet show a similar expansion in response to elevated serotonergic signaling. Interestingly, Dclk1-tdTom+ glial-like and neuronal cell types appear resistant to acute irradiation injury-mediated cell death. Moreover, Dclk1-tdTom+/CD49b+ glial-like cells show prominent changes in gene expression profiles induced by injury, in contrast to Dclk1-tdTom+/CD49b- neuronal cell types. Finally, subsets of Dclk1-tdTom+/CD49b+ glial-like cells demonstrate prominent overlap with Nestin and p75NTR and strong responses to elevated serotonergic signaling or acute injury. These findings, together with their role in early development and their neural crest-like gene expression signature, suggest the presence of reserve progenitor cells in the adult
    MeSH term(s) Animals ; Enteric Nervous System/physiology ; Integrin alpha2/metabolism ; Mice ; Mice, Transgenic ; Neural Stem Cells ; Neuroglia/metabolism ; Neurons/metabolism
    Chemical Substances Integrin alpha2
    Language English
    Publishing date 2022-03-23
    Publishing country United States
    Document type Journal Article ; Research Support, U.S. Gov't, P.H.S. ; Research Support, N.I.H., Extramural ; Research Support, Non-U.S. Gov't
    ZDB-ID 603840-2
    ISSN 1522-1547 ; 0193-1857
    ISSN (online) 1522-1547
    ISSN 0193-1857
    DOI 10.1152/ajpgi.00244.2021
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  10. Article: Ras-dependent activation of BMAL2 regulates hypoxic metabolism in pancreatic cancer.

    Maurer, H Carlo / Curiel-Garcia, Alvaro / Holmstrom, Sam / Laise, Pasquale / Palermo, Carmine F / Sastra, Steven A / Andren, Anthony / Li, Zhang / LeLarge, Tessa / Sagalovskiy, Irina / Ross, Daniel R / Rosario, Vilma / Lu, Kate / Ferraiuolo, Ethan / Spinosa, Nicholas / Wong, Winston / Shaw, Kaitlin / Chabot, John A / Genkinger, Jeanine /
    Hibshoosh, Hanina / Manji, Gulam A / Iuga, Alina / Schmid, Roland M / Badgley, Michael A / Johnson, Kristen / Califano, Andrea / Lyssiotis, Costas / Olive, Kenneth P

    bioRxiv : the preprint server for biology

    2023  

    Abstract: To identify novel drivers of malignancy in pancreatic ductal adenocarcinoma (PDAC), we employed regulatory network analysis, which calculates the activity of transcription factors and other regulatory proteins based on the integrated expression of their ... ...

    Abstract To identify novel drivers of malignancy in pancreatic ductal adenocarcinoma (PDAC), we employed regulatory network analysis, which calculates the activity of transcription factors and other regulatory proteins based on the integrated expression of their positive and negative target genes. We generated a regulatory network for the malignant epithelial cells of human PDAC using gene expression data from a set of 197 laser capture microdissected human PDAC samples and 45 low-grade precursors, for which we had matched histopathological, clinical, and epidemiological annotation. We then identified the most highly activated and repressed regulatory proteins (e.g. master regulators or MRs) associated with four malignancy phenotypes: precursors vs. PDAC (initiation), low-grade vs. high grade histopathology (progression), survival post resection, and association with KRAS activity. Integrating across these phenotypes, the top MR of PDAC malignancy was found to be BMAL2, a member of the PAS family of bHLH transcription factors. Although the canonical function of BMAL2 is linked to the circadian rhythm protein CLOCK, annotation of BMAL2 target genes highlighted a potential role in hypoxia response. We previously demonstrated that PDAC is hypovascularized and hypoperfused, and here show that PDAC from the genetically engineered KPC model exists in a state of extreme hypoxia, with a partial oxygen pressure of <1mmHg. Given the close homology of BMAL2 to HIF1β (ARNT) and its potential to heterodimerize with HIF1A and HIF2A, we investigated whether BMAL2 plays a role in the hypoxic response of PDAC. Indeed, BMAL2 controlled numerous hypoxia response genes and could be inhibited following treatment with multiple RAF, MEK, and ERK inhibitors, validating its association with RAS activity. Knockout of BMAL2 in four human PDAC cell lines led to defects in growth and invasion in the setting of hypoxia. Strikingly, BMAL2 null cells failed to induce glycolysis upon exposure to severe hypoxia and this was associated with a loss of expression of the glycolytic enzyme LDHA. Moreover, HIF1A was no longer stabilized under hypoxia in BMAL2 knockout cells. By contrast, HIF2A was hyper-stabilized under hypoxia, indicating a dysregulation of hypoxia metabolism in response to BMAL2 loss. We conclude that BMAL2 is a master regulator of hypoxic metabolism in PDAC, serving as a molecular switch between the disparate metabolic roles of HIF1A- and HIF2A-dependent hypoxia responses.
    Language English
    Publishing date 2023-03-21
    Publishing country United States
    Document type Preprint
    DOI 10.1101/2023.03.19.533333
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