Endotoxin- and Mechanical Stress–Induced Epigenetic Changes in the Regulation of the Nicotinamide Phosphoribosyltransferase Promoter

Elangovan, Venkateswaran Ramamoorthi, Camp, Sara M., Kelly, Gabriel T., Desai, Ankit A., Adyshev, Djanybek, Sun, Xiaoguang, Black, Stephen M., Wang, Ting, Garcia, Joe G. N.

12 1900

Mechanical ventilation, a lifesaving intervention for patients with acute respiratory distress syndrome (ARDS), also unfortunately contributes to excessive mechanical stress and impaired lung physiological and structural integrity. We have elsewhere established the pivotal role of increased nicotinamide phosphoribosyltransferase (NAMPT) transcription and secretion as well as its direct binding to the toll-like receptor 4 (TLR4) in the progression of this devastating syndrome; however, regulation of this critical gene in ventilator-induced lung injury (VILI) is not well characterized. On the basis of an emerging role for epigenetics in enrichment of VILI and CpG sites within the NAMPT promoter and 5'UTR, we hypothesized that NAMPT expression and downstream transcriptional events are influenced by epigenetic mechanisms. Concomitantly, excessive mechanical stress of human pulmonary artery endothelial cells or lipopolysaccharide (LPS) treatment led to both reduced DNA methylation levels in the NAMPT promoter and increased gene transcription. Histone deacetylase inhibition by trichostatin A or Sirt-1-silencing RNA attenuates LPS-induced NAMPT expression. Furthermore, recombinant NAMPT administration induced TLR4-dependent global H3K9 hypoacetylation. These studies suggest a complex epigenetic regulatory network of NAMPT in VILI and ARDS and open novel strategies for combating VILI and ARDS.

lung endothelium

epigenetics

DNA methylation

epigenetic modifiers

histone acetylation

Harnessing DNA nanoarchitecture to overcome immunoevasion in cancer

Davis, Meredith A.

24 May 2024

Immunotherapy offers a promising approach to cancer treatment by harnessing a patient’s own immune system to fight malignant cells. However, the clinical application of immunotherapy has been hindered by the immunosuppressive tumor microenvironment generated by cancer cells as a mechanism to impede immune function and evade immune detection. Clinically used immunotherapies, such as immune checkpoint inhibitors and adoptive cell therapy, aim to overcome the immunosuppressive tumor microenvironment by blocking key regulatory pathways and exogenously activating immune cells. While effective against some cancers, these therapies are still limited by systemic toxicity, poor delivery kinetics, and continuous tumor adaptation that leads to immune escape. Herein, we propose the synthesis of nanoscale branching DNA architectures, known as dendrons, to (1) encode and deliver a DNA sequence, termed G3YSD, capable of activating the cyclic GMP-AMP synthase (cGAS)-stimulator of interferon genes (STING) pathway; and (2) deliver epigenetic modifiers to reprogram immunosuppressive cues in tumor cells. This solution exploits the modularity, programmability, and ease of control over DNA synthesis to generate architectures that exhibit improved delivery kinetics and favorable presentation of cargo to enhance immunomodulatory effects. Our proposed solution directly targets immunosuppressive mechanisms in tumor cells to sensitize them to immune attack and make them more easily recognized by the immune system. Delivery of G3YSD-encoding dendrons to murine B16 melanoma significantly increased the expression of major histocompatibility complex I (MHC I) and programmed cell death-ligand 1 (PD-L1) surface-bound receptors, which are critical for immune signaling pathways. The chemical conjugation of romidepsin, a histone deacetylase inhibitor, to G3YSD-encoding dendrons resulted in more than a 2-fold increase in MHC I expression compared to unconjugated G3YSD sequences and free romidepsin, indicating that the spatial arrangement and presentation of romidepsin has a synergistic impact on cGAS-STING signaling. In addition, pretreatment of B16 melanoma cells with zebularine, a DNA methyltransferase inhibitor, followed by G3YSD-encoding dendrons significantly increased levels of cytotoxic T lymphocyte-mediated lysis in a physiologically relevant co-culture. Developing novel architectures capable of interacting with tumor cells to remodel and overcome immunosuppressive cues will lead to significant advances in the field of immunotherapeutic design and cancer treatment. / 2026-05-23T00:00:00Z

Biomedical engineering

cGAS-STING

Dendron

Epigenetic modifiers

Immunotherapy

Melanoma

Epigenetic modifiers of transgene silencing in the mouse

Daniel Morgan

Unknown Date

It is well established that epigenetic modifications to the genome are crucial for the exquisite control of gene expression required for an organism to develop and differentiate. These modifications are maintained through mitotic rounds of cell division, but must be cleared and reset through meiosis in order for the cells of the early embryo to achieve totipotency. Although we know these mechanisms exist, the rules determining which modifications are established where on the genome and the genes involved in these processes remain poorly characterised. Much of what is known about epigenetic processes has come from studies in non-mammalian organisms, such as Drosophila. However, in our laboratory we have developed a mammalian system for identifying modifiers of epigenetic gene silencing. An ENU mutagenesis screen is being carried out using an inbred mouse line carrying a GFP transgene, with an erythroid-specific promoter, that is particularly sensitive to changes in epigenetic modifications. Currently, 14 mutant lines that display a heritable shift in GFP expression have been recovered. These have been termed Modifiers of Murine Metastable Epialleles (Mommes). When I began my PhD in 2005, we had not identified any of the mutations underlying the phenotypes observed. To confirm the efficacy of the screen, I have tested the effect of heterozygosity for null alleles of two known epigenetic modifiers, Dnmt3a and Dnmt3b, on expression of the GFP transgene. Heterozygosity for the Dnmt3b knockout allele does shift expression while heterozygosity for the Dnmt3a knockout allele does not. This highlights the limitations of the screen. With this particular screen we will only detect modifiers that are expressed during haematopoiesis in the bone marrow. I have also worked on MommeD5. MommeD5 is a semi-dominant, homozygous embryonic lethal mutation that acts as an enhancer of variegation. I have found that the MommeD5 allele carries a 7 bp deletion in the major histone deacetylase, Histone deacetylase 1 (Hdac1), and this significantly alters the C-terminus of the mutant protein. The finding of Hdac1 attests to the screen design. The MommeD5 homozygous mutants die at approximately the same time as the published knockout of Hdac1 and the heterozygous mutants show increased levels of Hdac2 and acetylated histone H3, as reported in Hdac1-deficient embryonic stem cells. In addition, I have studied the effect of heterozygosity for each of the mutations on the phenotype of the mouse. In general, heterozygous Momme mutants are viable and fertile, but show subtle abnormal phenotypes. However, in the case of MommeD5 none were observed and this may relate to the compensatory upregulation of other histone deacetylases. In the case of Dnmt3a and Dnmt3b a sex ratio distortion is seen in the colonies, with less males seen than expected. Also, Dnmt3a heterozygous mutant males that inherited the mutant allele from the dam are smaller and show an increased range of body weights compared to their wild-type male littermates. This may be an example of intangible variation, i.e. phenotypic variation observed in isogenic individuals raised in standardised environments. These results suggest that epigenetic mechanisms have a role in intangible variation, also known as developmental noise. Despite the fact that it is now acknowledged by many that stochastic events occur at the level of the cell, the idea that it can happen at the level of the whole organism is rarely considered.

Impacto clínico e laboratorial de mutações no gene ASXL1 em pacientes com neoplasias mieloproliferativas

SILVA, Juan Luiz Coelho da

11 March 2016

Submitted by Fabio Sobreira Campos da Costa (fabio.sobreira@ufpe.br) on 2017-07-12T15:39:14Z No. of bitstreams: 2 license_rdf: 811 bytes, checksum: e39d27027a6cc9cb039ad269a5db8e34 (MD5) Dissertação Juan Luiz Coelho da Silva.pdf: 2693101 bytes, checksum: b946d507d9f21698d6349e8ecf91e259 (MD5) / Made available in DSpace on 2017-07-12T15:39:14Z (GMT). No. of bitstreams: 2 license_rdf: 811 bytes, checksum: e39d27027a6cc9cb039ad269a5db8e34 (MD5) Dissertação Juan Luiz Coelho da Silva.pdf: 2693101 bytes, checksum: b946d507d9f21698d6349e8ecf91e259 (MD5) Previous issue date: 2016-03-11 / FACEPE / Algumas evidências destacam mutações no gene ASXL1 como um evento importante na evolução clínica de pacientes com neoplasias hematológicas, particularmente em leucemias mieloides agudas e síndrome mielodisplásicas. Contudo, seu impacto prognóstico em neoplasias mieloproliferativas (NMP) ainda é pouco explorado. Aqui, nós caracterizamos 208 pacientes com NMP cromossomo Filadélfia (Ph) negativo (policitemia vera, PV; trombocitemia essencial, TE; mielofibrose primária, MFP), de acordo com mutações no gene ASXL1, e correlacionamos esses achados com características clinico-laboratoriais desses pacientes. A pesquisa das mutações foi realizada por sequenciamento sanger, em que polimorfismos germinativos e mutações sinonímias foram excluídas das análises. Mutações no ASXL1 foram detectadas em 22/208 pacientes (10%), das quais quatro foram observadas em pacientes com PV (4/54; 7%), onze em pacientes com TE (11/123; 9%) e sete com MFP (7/31; 22%). As características clínicas e laboratoriais foram similares entre pacientes com ASXL1 mutado e não mutado. Quando as entidades foram avaliadas individualmente (PV, TE e MFP), observou-se associação entre mutações no ASXL1 e idade mais avançada em pacientes com TE (P = 0,049) e desenvolvimento de esplenomegalia em pacientes com MFP (P = 0,026). Com uma mediana de seguimento de 5,1 anos (IC95%: 4,5 a 7,3 anos), 136 pacientes (65%) desenvolveram algum tipo de manifestação clínica, sendo o desenvolvimento de complicações vasculares o mais frequente (n=54; 26%), seguido por esplenomegalia (n=47; 22%), eventos hemorrágicos (n=30; 14%) e trombose (n=21; 10%). Mutações no gene ASXL1 não foram associadas com o desenvolvimento das referidas manifestações. Dentro deste seguimento, apenas dois pacientes evoluíram para síndrome mielodisplásica e um para leucemia mieloide aguda, todos sem mutações no gene ASXL1. / Accumulating evidences report mutation in ASXL1 as an important predictor to clinical outcomes of patients with hematological malignancies, particularly acute myeloid leukemia and myelodysplastic syndrome. However, the prognostic impact in myeloproliferative neoplasm (MPN) remains underexplored. Here, we evaluated clinical and laboratory features of 208 Philadelphia negative MPN patients (polycythemia vera, PV; essential thrombocythemia, ET; primary myelofibrosis, PMF), according to mutations in ASXL1. Screening for ASXL1 mutations were performedby Sanger sequencing. Germline variations were excluded. ASXL1 mutations were detected in 22/208 patients (10%), of which four in PV patients (4/54-7%), 11 in ET patients (11/123-9%) and seven in PMF (7/31-22%). Baseline features were similar between ASXL1-mutated and non-mutated patients. Evaluated individually (PV, ET, PMF), we observed that ET patients harboring ASXL1 mutations were older (P = 0,049) than ASXL1 non-mutated patients. Similarly, PMF patients presented higher frequency of splenomegaly in ASXL1mutated group (P = 0,026). No other features were associated with ASXL1mutations. The median follow-up was 5,1 years (CI95%: 4,5-7,3 years). One hundred and thirty six patients (65%) developed some of the clinical common manifestations, which the most frequent was vascular complications (n=54; 26%), followed by splenomegaly (n=47; 22%), bleeding (n=30;14%) and thrombosis (n=21;10%). ASXL1 mutations were not associated with development of such events. In our cohort, only two patients have evolved for myelodysplastic syndrome and one for acute myeloid leukemia, all of them without mutations in ASXL1.

Neoplasias mieloides

Modificadores epigenéticos

JAK-STAT

Prognóstico

Myeloid neoplasm

Epigenetic modifiers

JAK-STAT

Prognostic

Avaliação do efeito de moduladores epigenéticos na biossíntese de produtos naturais em fungos / Evaluation of the effect of epigenetic modifiers in the biosynthesis of fungal natural products.

Almeida, Marília Oliveira de

02 July 2014

A manipulação seletiva de alvos epigenéticos usando pequenas moléculas inibidoras das enzimas histona-desacetilases (HDACs) e DNA metiltransferases (DNMTs) é uma estratégia para estimular a expressão das vias biossintéticas e a produção de novos metabólitos secundários em fungos. Neste trabalho, inibidores de histonadesacetilases (butirato de sódio, ácido hidroxâmico suberoilanilida e ácido valproico) e inibidores de DNA metiltransferases (5-azacitidina, hidralazina, procaína e procainamida) foram suplementados em culturas líquidas e sólidas dos fungos endofíticos Fusarium oxysporum SS46, Hyphodermella corrugata FLe8.2 e Chaetomium globosum VR10, das linhagens comerciais Fusarium oxysporum ATCC MYA 4623 e Chaetomium globosum ATCC 56726 e do fitopatógeno Botrytis cinerea B0510. O fungo endofítico H. corrugata FLe8.2, em meio PDB, produziu o composto 2-(2-metoxifenil)-4H-piran-4-ona, e sua cultura em meio Czapek suplementada com hidralazina levou ao isolamento de 3-metil-1,2,4-triazolo[3,4-a]-ftalazina. O tratamento de F. oxysporum SS46 e F. oxysporum ATCC MYA 4623 com hidralazina em meio Czapek levou ao isolamento de um novo composto, 2H-[1,2,4]triazino[3,4- a]-ftalazina. Nestas culturas houve biotransformação da hidralazina pelos fungos, provavelmente como mecanismo de desintoxicação. Ainda, a hidralazina teve um efeito inibidor sobre a biossíntese do ciclohexadepsipeptídeo beauvericina em F. oxysporum SS46. Nas culturas de C. globosum VR10 em meio Czapek os inibidores de HDACs e de DNMTs suprimiram a biossíntese de chaetoglobosinas. A adição de ácido valproico na cultura de C. globosum VR10 em meio PDB eliciou a produção da chaetoviridina B. A adição de 5-azacitidina nas culturas de C. globosum VR10 em meio sólido PDA não modificou a produção da chaetoglosina A. A produção de chaetoviridina B por C. globosum ATCC 56726 em meio PDA foi inibida na menor concentração de 5-azacitidina, 50 ?M, e retomada na concentração de 150 ?M. O tratamento de B. cinerea B0510 com ácido hidroxâmico suberoilanilida SAHA levou à biossíntese de um novo composto, ácido 5-benzil-2,3-di-hidroxi-3-isopropil-4- oxotetrahidrofuran-2-carboxílico, o qual também foi isolado da linhagem geneticamente modificada B. cinerea Bc ?STC2. No geral, considerando as linhagens fúngicas estudadas, os resultados mostram que a adição de moduladores químicos que atuam em mecanismos epigenéticos promove mudanças no perfil de metabólitos secundários. / The selective manipulation of epigenetic targets using small molecule inhibitors of histone deacetylase (HDAC) and DNA methyltransferase (DNMT) activities is a strategy to elicit the expression of biosynthetic pathways and production of new secondary metabolites in fungi. In this work, HDAC inhibitors (sodium butyrate, suberohydroxamic acid and valproic acid) and DNMT inhibitors (5-azacitidine, hydralazine, procaine and procainamide) were supplemented in liquid and solid cultures of the endophytic fungi Fusarium oxysporum SS46, Hyphodermella corrugata FLe8.2 and Chaetomium globosum VR10, of the commercial fungal strains Fusarium oxysporum ATCC MYA 4623 and Chaetomium globosum ATCC 56726 and of the phytopathogenic fungus Botrytis cinerea B0510. The endophytic fungus H. corrugata FLe8.2 produced 2-(2-methoxyphenyl)-4H-pyran-4-one in PDB medium, while in the presence of hydralazine in Czapek medium the fungus produced 3- methyl-1,2,4-triazolo[3,4-a]-phthalazine. Treatment of F. oxysporum SS46 and F. oxysporum ATCC MYA 4623 with hydralazine in a Czapek medium led to the isolation of new compound, 2H-[1,2,4]triazino[3,4-a]-phthalazine. Hydralazine was biotransformed by these three fungi probably as a detoxification strategy. In addition, hydralazine also inhibited the biosynthesis of the cyclodepsipeptide beauvericin by F. oxysporum SS46. HDAC and DNMT inhibitors suppressed chaetoglobosins\' biosynthesis by C. globosum VR10 cultures in Czapek medium. The biosynthesis of chaetoviridin B by C. globosum VR10 was elicited by acid valproic in PDB medium. The production of chaetogosin A by C. globosum VR10 in PDA medium has not been affected by 5-azacitidine. The biosynthesis of chaetoviridin B by C. globosum ATCC 56726 in PDA medium was inhibited in the presence of lower concentration 5- azacitidine (50 ?M) and recovered in the higher concentration (150 ?M). Treatment of B. cinerea B0510 with suberohydroxamic acid led to the biosynthesis of the new compound 5-benzyl-2,3-dihydroxy-3-isopropyl-4-oxotetrahydrofuran-2-carboxylic acid, which was also isolated from the genetically modified strain B. cinerea Bc ?STC2. Results showed that chemical compounds that act in epigenetic mechanisms can induce changes in the secondary metabolite profiles in the fungal strains studied in this work.

biossíntese

biosynthesis

endophytic fungi

epigenetic modifiers

fungo fitopatogênico

fungos endofíticos

microbial natural products

moduladores epigenéticos

pathogenic fungus.

produtos naturais microbianos

Avaliação do efeito de moduladores epigenéticos na biossíntese de produtos naturais em fungos / Evaluation of the effect of epigenetic modifiers in the biosynthesis of fungal natural products.

Marília Oliveira de Almeida

02 July 2014

A manipulação seletiva de alvos epigenéticos usando pequenas moléculas inibidoras das enzimas histona-desacetilases (HDACs) e DNA metiltransferases (DNMTs) é uma estratégia para estimular a expressão das vias biossintéticas e a produção de novos metabólitos secundários em fungos. Neste trabalho, inibidores de histonadesacetilases (butirato de sódio, ácido hidroxâmico suberoilanilida e ácido valproico) e inibidores de DNA metiltransferases (5-azacitidina, hidralazina, procaína e procainamida) foram suplementados em culturas líquidas e sólidas dos fungos endofíticos Fusarium oxysporum SS46, Hyphodermella corrugata FLe8.2 e Chaetomium globosum VR10, das linhagens comerciais Fusarium oxysporum ATCC MYA 4623 e Chaetomium globosum ATCC 56726 e do fitopatógeno Botrytis cinerea B0510. O fungo endofítico H. corrugata FLe8.2, em meio PDB, produziu o composto 2-(2-metoxifenil)-4H-piran-4-ona, e sua cultura em meio Czapek suplementada com hidralazina levou ao isolamento de 3-metil-1,2,4-triazolo[3,4-a]-ftalazina. O tratamento de F. oxysporum SS46 e F. oxysporum ATCC MYA 4623 com hidralazina em meio Czapek levou ao isolamento de um novo composto, 2H-[1,2,4]triazino[3,4- a]-ftalazina. Nestas culturas houve biotransformação da hidralazina pelos fungos, provavelmente como mecanismo de desintoxicação. Ainda, a hidralazina teve um efeito inibidor sobre a biossíntese do ciclohexadepsipeptídeo beauvericina em F. oxysporum SS46. Nas culturas de C. globosum VR10 em meio Czapek os inibidores de HDACs e de DNMTs suprimiram a biossíntese de chaetoglobosinas. A adição de ácido valproico na cultura de C. globosum VR10 em meio PDB eliciou a produção da chaetoviridina B. A adição de 5-azacitidina nas culturas de C. globosum VR10 em meio sólido PDA não modificou a produção da chaetoglosina A. A produção de chaetoviridina B por C. globosum ATCC 56726 em meio PDA foi inibida na menor concentração de 5-azacitidina, 50 ?M, e retomada na concentração de 150 ?M. O tratamento de B. cinerea B0510 com ácido hidroxâmico suberoilanilida SAHA levou à biossíntese de um novo composto, ácido 5-benzil-2,3-di-hidroxi-3-isopropil-4- oxotetrahidrofuran-2-carboxílico, o qual também foi isolado da linhagem geneticamente modificada B. cinerea Bc ?STC2. No geral, considerando as linhagens fúngicas estudadas, os resultados mostram que a adição de moduladores químicos que atuam em mecanismos epigenéticos promove mudanças no perfil de metabólitos secundários. / The selective manipulation of epigenetic targets using small molecule inhibitors of histone deacetylase (HDAC) and DNA methyltransferase (DNMT) activities is a strategy to elicit the expression of biosynthetic pathways and production of new secondary metabolites in fungi. In this work, HDAC inhibitors (sodium butyrate, suberohydroxamic acid and valproic acid) and DNMT inhibitors (5-azacitidine, hydralazine, procaine and procainamide) were supplemented in liquid and solid cultures of the endophytic fungi Fusarium oxysporum SS46, Hyphodermella corrugata FLe8.2 and Chaetomium globosum VR10, of the commercial fungal strains Fusarium oxysporum ATCC MYA 4623 and Chaetomium globosum ATCC 56726 and of the phytopathogenic fungus Botrytis cinerea B0510. The endophytic fungus H. corrugata FLe8.2 produced 2-(2-methoxyphenyl)-4H-pyran-4-one in PDB medium, while in the presence of hydralazine in Czapek medium the fungus produced 3- methyl-1,2,4-triazolo[3,4-a]-phthalazine. Treatment of F. oxysporum SS46 and F. oxysporum ATCC MYA 4623 with hydralazine in a Czapek medium led to the isolation of new compound, 2H-[1,2,4]triazino[3,4-a]-phthalazine. Hydralazine was biotransformed by these three fungi probably as a detoxification strategy. In addition, hydralazine also inhibited the biosynthesis of the cyclodepsipeptide beauvericin by F. oxysporum SS46. HDAC and DNMT inhibitors suppressed chaetoglobosins\' biosynthesis by C. globosum VR10 cultures in Czapek medium. The biosynthesis of chaetoviridin B by C. globosum VR10 was elicited by acid valproic in PDB medium. The production of chaetogosin A by C. globosum VR10 in PDA medium has not been affected by 5-azacitidine. The biosynthesis of chaetoviridin B by C. globosum ATCC 56726 in PDA medium was inhibited in the presence of lower concentration 5- azacitidine (50 ?M) and recovered in the higher concentration (150 ?M). Treatment of B. cinerea B0510 with suberohydroxamic acid led to the biosynthesis of the new compound 5-benzyl-2,3-dihydroxy-3-isopropyl-4-oxotetrahydrofuran-2-carboxylic acid, which was also isolated from the genetically modified strain B. cinerea Bc ?STC2. Results showed that chemical compounds that act in epigenetic mechanisms can induce changes in the secondary metabolite profiles in the fungal strains studied in this work.

biossíntese

fungo fitopatogênico

fungos endofíticos

moduladores epigenéticos

produtos naturais microbianos

biosynthesis

endophytic fungi

epigenetic modifiers

microbial natural products

pathogenic fungus.