Your search keyword '"Cycloheximide"' showing total 28,408 results

1. Changes in Ergosterol Biosynthesis Alter the Response to Cycloheximide, 4-Nitroquinoline-N-Oxide, Weak Organic Acids, and Virulence in Candida glabrata.

Author

Eliaš, Daniel, Tóth Hervay, Nora, Černáková, Lucia, and Gbelská, Yvetta

Subjects

*GREATER wax moth, *ORGANIC acids, *CELL membranes, *CYCLOHEXIMIDE, *FUNCTIONAL analysis

Abstract

The ERG6 gene encodes the sterol C24-methyltransferase converting zymosterol to fecosterol in the ergosterol biosynthetic pathway. Here, we extend the results of functional analysis of the CgERG6 gene, which was previously shown to modulate drug susceptibility in Candida glabrata mutant cells, by demonstrating that its deletion leads to increased susceptibility to cycloheximide, 4-nitroquinoline-N-oxide and weak organic acids, and such effects are associated with attenuated virulence. Together with abrogated efflux of drug substrates by CgCdr1p and CgPdr12p, the Cgerg6Δ mutation leads to reduced cell surface hydrophobicity and decreased virulence of the mutant cells of C. glabrata. The absence of CgErg6p impacts the lipid organization and function of the plasma membrane, resulting in non-specific permeability and abrogation of normal function of membrane-bound proteins accompanied by decreased virulence in Cgerg6Δ cells. Galleria mellonella larvae were used as a non-vertebrate animal host model to determine differences in the virulence potential of C. glabrata strains (parental strain and the Cgerg6Δ deletion mutant). We found that Cgerg6Δ mutant strain attenuated in virulence caused 25–30% survival of larvae compared with parental strain. [ABSTRACT FROM AUTHOR]

Published

2024

2. Fear generalization modulated by shock intensity and protein synthesis inhibitor.

Author

Dong, Xinwen, Wang, Yunyun, Liu, Yudan, and Li, Yonghui

Abstract

Rationale: Maladaptive fear responses, including sensitized threat reactions and overgeneralization, contribute to anxiety disorders such as generalized anxiety disorder and post-traumatic stress disorder. Although stress intensity influences the generation and extent of these maladaptive fears, the underlying mechanisms remain unclear. Objectives: The present study examined whether varying footshock stress intensity and inhibition of protein synthesis have differential effect on fear sensitization and generalization in mice. Methods: Mice were subjected to a classic fear conditioning protocol involving five different levels of footshock intensities. Prior to fear acquisition, the protein synthesis inhibitor cycloheximide (CHX) was administered intraperitoneally. Fear sensitization to white noise and fear generalization to tones with frequencies differing from the conditioned tone were assessed at either 2 or 4 days after fear acquisition. Results: The results showed that, although varying shock intensities (except the lowest) led to a similar pattern of increased freezing during auditory cues in fear acquisition, the extent of both fear sensitization and generalization increased with the intensity of the footshock in the following days. As shock intensities increased, there was a proportional rise in sensitized fear to white noise and generalized freezing to tones with frequencies progressively closer to the conditioned stimulus. Mildest shocks did not induce discriminative conditioned fear memory, whereas the most intense shocks led to pronounced fear generalization. Administration of CHX before fear acquisition did not affect sensitized fear but reduced generalization of freezing to tones dissimilar from the conditioned stimulus in the group exposed to the most intense shock. Conclusions: Our results suggest that maladaptive fear responses elicited by varying stress intensities exhibit distinct characteristics. The effect of CHX to prevent overgeneralization without affecting discriminative fear memory points to potential therapeutic approaches for fear-related disorders, suggesting the possibility of mitigating overgeneralization while preserving necessary fear discrimination. [ABSTRACT FROM AUTHOR]

Published

2024

3. The translational inhibitor and amnestic agent emetine also suppresses ongoing hippocampal neural activity similarly to other blockers of protein synthesis.

Author

Al‐Smadi, S., Padros, A., Goss, G. G., and Dickson, C. T.

Subjects

*PROTEIN synthesis, *LONG-term memory, *HIPPOCAMPUS (Brain), *THETA rhythm, *CYCLOHEXIMIDE

Abstract

The consolidation of memory is thought to ultimately depend on the synthesis of new proteins, since translational inhibitors such as anisomycin and cycloheximide adversely affect the permanence of long‐term memory. However, when applied directly in brain, these agents also profoundly suppress neural activity to an extent that is directly correlated to the degree of protein synthesis inhibition caused. Given that neural activity itself is likely to help mediate consolidation, this finding is a serious criticism of the strict de novo protein hypothesis of memory. Here, we test the neurophysiological effects of another translational inhibitor, emetine. Unilateral intra‐hippocampal infusion of emetine suppressed ongoing local field and multiunit activity at ipsilateral sites as compared to the contralateral hippocampus in a fashion that was positively correlated to the degree of protein synthesis inhibition as confirmed by autoradiography. This suppression of activity was also specific to the circumscribed brain region in which protein synthesis inhibition took place. These experiments provide further evidence that ongoing protein synthesis is necessary and fundamental for neural function and suggest that the disruption of memory observed in behavioral experiments using translational inhibitors may be due, in large part, to neural suppression. [ABSTRACT FROM AUTHOR]

Published

2024

4. The Deubiquitinase USP22‐Stabilized COL17A1 Promotes Lung Adenocarcinoma Progression.

Author

Chen, Guangxi, Du, Dandan, Wang, Haihua, and Li, Huifeng

Subjects

*PROTEIN stability, *PHENOTYPIC plasticity, *CELL growth, *CELL survival, *CYCLOHEXIMIDE

Abstract

Background: Lung adenocarcinoma (LUAD) is a highly aggressive and rapidly fatal malignancy worldwide. Collagen XVII (COL17A1) has been implicated in various protumorigenic processes. However, the functions and mechanisms of COL17A1 in LUAD progression still remain elusive. Methods: COL17A1 and ubiquitin‐specific protease 22 (USP22) mRNA analysis was performed by quantitative PCR, and their protein levels were detected by immunoblotting and immunohistochemistry. The functional influence was evaluated by determining cell viability, proliferation, apoptosis, invasion, migration, and ferroptosis in vitro, as well as xenograft growth in vivo. Co‐immunoprecipitation (Co‐IP) and IP experiments were used to examine the USP22/COL17A1 interaction and COL17A1 deubiquitination. Cycloheximide treatment was used to analyze COL17A1 protein stability. Results: COL17A1 and USP22 were upregulated in human LUAD tissues and cell lines. Functionally, COL17A1 knockdown acted for the suppression of LUAD cell growth, invasion, and migration as well as promotion of cell apoptosis and ferroptosis in vitro. COL17A1 knockdown could diminish the tumorigenicity of LUAD cells in vivo. Mechanistically, USP22 stabilized and upregulated COL17A1 by enhancing the deubiquitination of COL17A1. Additionally, reexpression of COL17A1 could reverse USP22 silencing‐induced phenotype changes of LUAD cells in vitro. Conclusion: Our findings demonstrate that USP22‐stabilized COL17A1 possesses oncogenic activity in LUAD. We propose that USP22 and COL17A1 would be potential targets for the establishment of therapeutic approaches against LUAD. [ABSTRACT FROM AUTHOR]

Published

2024

5. A Droplet-Based Microfluidic Platform for High-Throughput Culturing of Yeast Cells in Various Conditions.

Author

Yu, Min-Chieh and Sun, Yung-Shin

Subjects

YEAST culture, CYTOLOGY, MICRODROPLETS, CYCLOHEXIMIDE, MICROFLUIDICS

Abstract

Yeast plays a significant role in a variety of fields. In particular, it is extensively used as a model organism in genetics and cellular biology studies, and is employed in the production of vaccines, pharmaceuticals, and biofuels. Traditional "bulk"-based studies on yeast growth often overlook cellular variability, emphasizing the need for single-cell analysis. Micro-droplets, tiny liquid droplets with high surface-area-to-volume ratios, offer a promising platform for investigating single or a small number of cells, allowing precise control and monitoring of individual cell behaviors. Microfluidic devices, which facilitate the generation of micro-droplets, are advantageous due to their reduced volume requirements and ability to mimic in vivo micro-environments. This study introduces a custom-designed microfluidic device to encapsulate yeasts in micro-droplets under various conditions in a parallel manner. The results reveal that optimal glucose concentrations promoted yeast growth while cycloheximide and Cu2+ ions inhibited it. This platform enhances yeast cultivation strategies and holds potential for high-throughput single-cell investigations in more complex organisms. [ABSTRACT FROM AUTHOR]

Published

2024

6. Inhibition of Protein Synthesis Attenuates Formation of Traumatic Memory and Normalizes Fear-Induced c-Fos Expression in a Mouse Model of Posttraumatic Stress Disorder.

Author

Zamorina, Tatyana A., Ivashkina, Olga I., Toropova, Ksenia A., and Anokhin, Konstantin V.

Subjects

*EPISODIC memory, *POST-traumatic stress disorder, *PROTEIN synthesis, *THALAMIC nuclei, *LABORATORY mice, *AVERSIVE stimuli, *ANIMAL disease models, *THALAMOCORTICAL system

Abstract

Posttraumatic stress disorder (PTSD) is a debilitating psychosomatic condition characterized by impairment of brain fear circuits and persistence of exceptionally strong associative memories resistant to extinction. In this study, we investigated the neural and behavioral consequences of inhibiting protein synthesis, a process known to suppress the formation of conventional aversive memories, in an established PTSD animal model based on contextual fear conditioning in mice. Control animals were subjected to the conventional fear conditioning task. Utilizing c-Fos neural activity mapping, we found that the retrieval of PTSD and normal aversive memories produced activation of an overlapping set of brain structures. However, several specific areas, such as the infralimbic cortex and the paraventricular thalamic nucleus, showed an increase in the PTSD group compared to the normal aversive memory group. Administration of protein synthesis inhibitor before PTSD induction disrupted the formation of traumatic memories, resulting in behavior that matched the behavior of mice with usual aversive memory. Concomitant with this behavioral shift was a normalization of brain c-Fos activation pattern matching the one observed in usual fear memory. Our findings demonstrate that inhibiting protein synthesis during traumatic experiences significantly impairs the development of PTSD in a mouse model. These data provide insights into the neural underpinnings of protein synthesis-dependent traumatic memory formation and open prospects for the development of new therapeutic strategies for PTSD prevention. [ABSTRACT FROM AUTHOR]

Published

2024

7. Allosteric inhibition of HSP70 in collaboration with STUB1 augments enzalutamide efficacy in antiandrogen resistant prostate tumor and patient-derived models

Author

Xu, Pengfei, Yang, Joy C, Ning, Shu, Chen, Bo, Nip, Christopher, Wei, Qiang, Liu, Liangren, Johnson, Oleta T, Gao, Allen C, Gestwicki, Jason E, Evans, Christopher P, and Liu, Chengfei

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Oncology and Carcinogenesis, Cancer, Urologic Diseases, Prostate Cancer, 5.1 Pharmaceuticals, 2.1 Biological and endogenous factors, Good Health and Well Being, Male, Humans, Receptors, Androgen, Androgen Antagonists, Prostatic Neoplasms, Castration-Resistant, Cell Line, Tumor, Nitriles, Androgen Receptor Antagonists, Androgens, HSP70 Heat-Shock Proteins, Drug Resistance, Neoplasm, Ubiquitin-Protein Ligases, Prostate cancer, Enzalutamide resistance, HSP70, STUB1, Androgen receptor variant, Patient-derived model, JG98, MG132, apalutamide, cycloheximide, darolutamide, enzalutamide, Pharmacology and Pharmaceutical Sciences, Pharmacology & Pharmacy, Pharmacology and pharmaceutical sciences

Abstract

Ubiquitin proteasome activity is suppressed in enzalutamide resistant prostate cancer cells, and the heat shock protein 70/STIP1 homology and U-box-containing protein 1 (HSP70/STUB1) machinery are involved in androgen receptor (AR) and AR variant protein stabilization. Targeting HSP70 could be a viable strategy to overcome resistance to androgen receptor signaling inhibitor (ARSI) in advanced prostate cancer. Here, we showed that a novel HSP70 allosteric inhibitor, JG98, significantly suppressed drug-resistant C4-2B MDVR and CWR22Rv1 cell growth, and enhanced enzalutamide treatment. JG98 also suppressed cell growth in conditional reprogramed cell cultures (CRCs) and organoids derived from advanced prostate cancer patient samples. Mechanistically, JG98 degraded AR/AR-V7 expression in resistant cells and promoted STUB1 nuclear translocation to bind AR-V7. Knockdown of the E3 ligase STUB1 significantly diminished the anticancer effects and partially restored AR-V7 inhibitory effects of JG98. JG231, a more potent analog developed from JG98, effectively suppressed the growth of the drug-resistant prostate cancer cells, CRCs, and organoids. Notably, the combination of JG231 and enzalutamide synergistically inhibited AR/AR-V7 expression and suppressed CWR22Rv1 xenograft tumor growth. Inhibition of HSP70 using novel small-molecule inhibitors coordinates with STUB1 to regulate AR/AR-V7 protein stabilization and ARSI resistance.

Published

2023

8. Role of ERG11 and MDR1 genes in cycloheximide and multidrug resistance in Candida species

Author

Huma, Zill-e-, Saleem, Sidrah, Imran, Muhammad, Raza, Syed Mohsin, Jabeen, Kokab, and Arshad, Faiqa

Published

2024

9. Loss of the yeast transporter Agp2 upregulates the pleiotropic drug-resistant pump Pdr5 and confers resistance to the protein synthesis inhibitor cycloheximide.

Author

Manzoor, Yusra, Aouida, Mustapha, Ramadoss, Ramya, Moovarkumudalvan, Balasubramanian, Ahmed, Nisar, Sulaiman, Abdallah Alhaj, Mohanty, Ashima, Ali, Reem, Mifsud, Borbala, and Ramotar, Dindial

Subjects

*CYCLOHEXIMIDE, *PROTEIN synthesis, *POISONS, *MEMBRANE proteins, *TAPEWORMS

Abstract

The transmembrane protein Agp2, initially shown as a transporter of L-carnitine, mediates the high-affinity transport of polyamines and the anticancer drug bleomycin-A5. Cells lacking Agp2 are hyper-resistant to polyamine and bleomycin-A5. In these earlier studies, we showed that the protein synthesis inhibitor cycloheximide blocked the uptake of bleomycin-A5 into the cells suggesting that the drug uptake system may require de novo synthesis. However, our recent findings demonstrated that cycloheximide, instead, induced rapid degradation of Agp2, and in the absence of Agp2 cells are resistant to cycloheximide. These observations raised the possibility that the degradation of Agp2 may allow the cell to alter its drug resistance network to combat the toxic effects of cycloheximide. In this study, we show that membrane extracts from agp2Δ mutants accentuated several proteins that were differentially expressed in comparison to the parent. Mass spectrometry analysis of the membrane extracts uncovered the pleiotropic drug efflux pump, Pdr5, involved in the efflux of cycloheximide, as a key protein upregulated in the agp2Δ mutant. Moreover, a global gene expression analysis revealed that 322 genes were differentially affected in the agp2Δ mutant versus the parent, including the prominent PDR5 gene and genes required for mitochondrial function. We further show that Agp2 is associated with the upstream region of the PDR5 gene, leading to the hypothesis that cycloheximide resistance displayed by the agp2Δ mutant is due to the derepression of the PDR5 gene. [ABSTRACT FROM AUTHOR]

Published

2024

10. Functional Integrity of Radical SAM Enzyme Dph1•Dph2 Requires Non-Canonical Cofactor Motifs with Tandem Cysteines.

Author

Ütkür, Koray, Mayer, Klaus, Liu, Shihui, Brinkmann, Ulrich, and Schaffrath, Raffael

Subjects

*RADICALS (Chemistry), *IRON clusters, *ENZYMES, *PROTEOLYSIS, *HETERODIMERS, *CYCLOHEXIMIDE

Abstract

The Dph1•Dph2 heterodimer from yeast is a radical SAM (RS) enzyme that generates the 3-amino-3-carboxy-propyl (ACP) precursor for diphthamide, a clinically relevant modification on eukaryotic elongation factor 2 (eEF2). ACP formation requires SAM cleavage and atypical Cys-bound Fe-S clusters in each Dph1 and Dph2 subunit. Intriguingly, the first Cys residue in each motif is found next to another ill-defined cysteine that we show is conserved across eukaryotes. As judged from structural modeling, the orientation of these tandem cysteine motifs (TCMs) suggests a candidate Fe-S cluster ligand role. Hence, we generated, by site-directed DPH1 and DPH2 mutagenesis, Dph1•Dph2 variants with cysteines from each TCM replaced individually or in combination by serines. Assays diagnostic for diphthamide formation in vivo reveal that while single substitutions in the TCM of Dph2 cause mild defects, double mutations almost entirely inactivate the RS enzyme. Based on enhanced Dph1 and Dph2 subunit instability in response to cycloheximide chases, the variants with Cys substitutions in their cofactor motifs are particularly prone to protein degradation. In sum, we identify a fourth functionally cooperative Cys residue within the Fe-S motif of Dph2 and show that the Cys-based cofactor binding motifs in Dph1 and Dph2 are critical for the structural integrity of the dimeric RS enzyme in vivo. [ABSTRACT FROM AUTHOR]

Published

2024

11. Identification and characterization of a novel CASR mutation causing familial hypocalciuric hypercalcemia.

Author

Chien-Ming Lin, Yi-Xuan Ding, Shih-Ming Huang, Ying-Chuan Chen, Hwei-Jen Lee, Chih-Chien Sung, and Shih-Hua Lin

Subjects

HYPERCALCEMIA, GENETIC mutation, BINDING energy, PARATHYROID hormone, CYCLOHEXIMIDE, CALCIUM-sensing receptors, PROTEIN stability, IDENTIFICATION

Abstract

Context: Although a monoallelic mutation in the calcium-sensing receptor (CASR) gene causes familial hypocalciuric hypercalcemia (FHH), the functional characterization of the identified CASR mutation linked to the clinical response to calcimimetics therapy is still limited. Objective: A 45-year-old male presenting with moderate hypercalcemia, hypocalciuria, and inappropriately high parathyroid hormone (PTH) had a good response to cinacalcet (total serum calcium (Ca2+,) from 12.5 to 10.1 mg/dl). We identified the genetic mutation and characterized the functional and pathophysiological mechanisms, and then linked the mutation to calcimimetics treatment in vitro. Design: Sanger sequencing of the CASR, GNA11, and AP2S1 genes was performed in his family. The simulation model was used to predict the function of the identified mutant. In vitro studies, including immunoblotting, immunofluorescence, a cycloheximide chase study, Calbryte 520 Ca2+, detection, and half-maximal effective concentration (EC50), were examined. Results: This proband was found to carry a de novo heterozygous missense I554N in the cysteine-rich domain of CASR, which was pathogenic based on the different software prediction models and ACGME criteria. The simulation model showed that CASR I554N mutation decreased its binding energy with Ca2+,. Human CASR I554N mutation attenuated the stability of CASR protein, reduced the expression of p-ERK 1/2, and blunted the intracellular Ca2+, response to gradient extracellular Ca2+,(eCa2+,) concentration. The EC50 study also demonstrated the correctable effect of calcimimetics on the function of the CASR I554N mutation. Conclusion: This novel CASR I554N mutation causing FHH attenuates CASR stability, its binding affinity with Ca2+, and the response to eCa2+, corrected by therapeutic calcimimetics. [ABSTRACT FROM AUTHOR]

Published

2024

12. Synthesis, Crystal Structures, Genotoxicity, and Antifungal and Antibacterial Studies of Ni(II) and Cd(II) Pyrazole Amide Coordination Complexes.

Author

El Mahdaoui, Amal, Radi, Smaail, Draoui, Youssef, El Massaoudi, Mohamed, Ouahhoud, Sabir, Asehraou, Abdeslam, Bentouhami, Nour Eddine, Saalaoui, Ennouamane, Benabbes, Redouane, Robeyns, Koen, and Garcia, Yann

Subjects

*CADMIUM compounds, *SCHIFF bases, *GENETIC toxicology, *CRYSTAL structure, *PYRAZOLES, *AMIDES, *CYCLOHEXIMIDE, *LIGANDS (Biochemistry)

Abstract

In this study, we synthesized two coordination complexes based on pyrazole-based ligands, namely 1,5-dimethyl-N-phenyl-1H-pyrazole-3-carboxamide (L1) and 1,5-dimethyl-N-propyl-1H-pyrazole-3-carboxamide (L2), with the aim to investigate bio-inorganic properties. Their crystal structures revealed a mononuclear complex [Ni(L1)2](ClO4)2 (C1) and a dinuclear complex [Cd2(L2)2]Cl4 (C2). Very competitive antifungal and anti-Fusarium activities were found compared to the reference standard cycloheximide. Additionally, L1 and L2 present very weak genotoxicity in contrast to the observed increase in genotoxicity for the coordination complexes C1 and C2. [ABSTRACT FROM AUTHOR]

Published

2024

13. Hydroxymethylnitrofurazone lymphatic uptake with nanostructured lipid carrier after oral administration in rats.

Author

Souza, Aline de, Scarim, Cauê Benito, Cotrim, Paulo Cesar, Junior, Fernando Barbosa, Rocha, Bruno Alves, Calixto, Leandro Augusto, Correia, Cristiano Jesus, de Barros Araújo, Gabriel Lima, Löbenberg, Raimar, Bou-Chacra, Nádia Araci, and Breithaupt-Faloppa, Ana Cristina

Abstract

Background: Leishmaniasis, caused by the protozoan Leishmania sp., infects phagocyte cells present in lymphatic organs. This study demonstrates the influence of nanostructured lipid carrier-loaded hydroxymethylnitrofurazone (NLC-NFOH) on lymphatic uptake using a chylomicron-blocking flow model in rats. Method: Lymphatic uptake of NFOH was assessed 1 h after oral administration of dimethyl sulfoxide with NFOH or NLC-NFOH with and without cycloheximide pretreatment. Result: Dimethyl sulfoxide with NFOH and NLC-NFOH showed NFOH serum concentrations of 0.0316 and 0.0291 μg/ml, respectively. After chylomicron blocking, NFOH was not detected. Conclusion: Despite log P below 5, NFOH was successfully taken up by the lymphatic system. Long-chain fatty acids and particle size might be main factors in these findings. NLC-NFOH is a promising and convenient platform for treating leishmaniasis via oral administration. [ABSTRACT FROM AUTHOR]

Published

2024

14. What is Learned Determines How Pavlovian Conditioned Fear is Consolidated in the Brain.

Author

Leake, Jessica, Leidl, Dana M., Lay, Belinda P. P., Fam, Justine P., Giles, Madeleine C., Qureshi, Omar A., Westbrook, R. Frederick, and Holmes, Nathan M.

Subjects

*PROTEIN synthesis, *AMYGDALOID body, *BRAIN, *CYCLOHEXIMIDE

Abstract

Activity in the basolateral amygdala complex (BLA) is needed to encode fears acquired through contact with both innate sources of danger (i.e., things that are painful) and learned sources of danger (e.g., being threatened with a gun). However, within the BLA, the molecular processes required to consolidate the two types of fear are not the same: protein synthesis is needed to consolidate the first type of fear (so-called first-order fear) but not the latter (so-called second-order fear). The present study examined why first- and second-order fears differ in this respect. Specifically, it used a range of conditioning protocols in male and female rats, and assessed the effects of a BLA infusion of the protein synthesis inhibitor, cycloheximide, on first- and second-order conditioned fear. The results revealed that the differential protein synthesis requirements for consolidation of first- and second-order fears reflect differences in what is learned in each case. Protein synthesis in the BLA is needed to consolidate fears that result from encoding of relations between stimuli in the environment (stimulus--stimulus associations, typical for first-order fear) but is not needed to consolidate fears that form when environmental stimuli associate directly with fear responses emitted by the animal (stimulus-- response associations, typical for second-order fear). Thus, the substrates of Pavlovian fear conditioning in the BLA depend on the way that the environment impinges upon the animal. This is discussed with respect to theories of amygdala function in Pavlovian fear conditioning, and ways in which stimulus--response associations might be consolidated in the brain. [ABSTRACT FROM AUTHOR]

Published

2024

15. Cycloheximide in the nanomolar range inhibits seed germination of Orobanche minor.

Author

Ryosuke Nogami, Mari Nagata, Risa Imada, Kenji Kai, Takashi Kawaguchi, and Shuji Tani

Subjects

*GERMINATION, *CYCLOHEXIMIDE, *BROOMRAPES, *LEMNA minor, *RED clover, *RIBOSOMAL proteins

Abstract

From the 992 samples of culture extracts of microorganisms isolated from soil in Japan, we found that the extract of Streptomyces sp. no. 226 inhibited Orobanche minor seed germination without significantly affecting the seed germination of Trifolium pratense and the growth of Aspergillus oryzae and Escherichia coli. Using ESI-MS, 1H-NMR, and 13C-NMR, we identified the active compound as cycloheximide. Cycloheximide had half-maximum inhibitory concentrations of 2.6 ng/mL for the inhibition of seed germination of O. minor and 2.5 µg/mL for that of the conidial germination of A. oryzae. Since cycloheximide is known to inhibit translation by interacting with ribosomal protein L28 (RPL28) in yeast, we investigated whether RPL protein of O. minor plays a critical role in the inhibition of O. minor seed germination. Our data suggested that O. minor RPL27A was not sensitive to cycloheximide by comparing it to the strain expressing S. cerevisiae RPL28. These findings suggest the presence of an unidentified mechanism by which cycloheximide hinders O. minor seed germination. [ABSTRACT FROM AUTHOR]

Published

2024

16. Puerarin Attenuates Cycloheximide-Induced Oxidative Damage and Memory-Consolidation Impairment in Rats.

Author

Kuo-Jen Wu, Jin-Cherng Lien, and Chi-Rei Wu

Subjects

*ISOFLAVONES, *ADRENERGIC receptors, *PREFRONTAL cortex, *CHOLINERGIC mechanisms, *NERVOUS system, *IMMOBILIZATION stress

Abstract

Background: Cycloheximide (CXM), an antifungal antibiotic, causes impaired memory consolidation as a side effect partially by disturbing the activities of the central catecholaminergic and cholinergic system. Some reports indicated that puerarin prevented memory impairment in various models in rodents. However, the protective effects of puerarin on the side effects of cycloheximide for memory consolidation impairment have not yet been investigated. Methods: The protective effects of puerarin on CXM-induced memoryconsolidation impairment, and memory impairment produced by central administration of AF64A neurotoxin, were investigated using a passive avoidance task in rats. A combination of transmitter receptor agonists and antagonists was used to explore the effects of puerarin on nervous system function. The activity of antioxidant defense systems and neurotransmitter systems in the prefrontal cortex and hippocampus were assayed. Results: Systemic (25 and 50 mg/kg, i.p.) or central (5 and 10 µg/brain, i.c.v.) administration of puerarin attenuated CXM-induced memory-consolidation impairment produced by 1.5 mg/kg CXM (s.c.) in rats. The improvements produced by 50 mg/kg puerarin were blocked by cholinergic antagonists, a 5-HT2 receptor agonist, and an adrenergic receptor antagonist. Puerarin (only at 50 mg/kg, i.p.) reversed the CXM-induced alterations of the levels of norepinephrine in the prefrontal cortex and the levels of monoamines in the hippocampus. Puerarin also increased antioxidant-defense-system activities in the prefrontal cortex and hippocampus, which had been decreased by CXM. Conclusions: We suggested that the attenuating effects of puerarin on CXM-induced memory-consolidation impairment may be due to decrease oxidative damage and the normalition of the neurotransmitter function in the prefrontal cortex and hippocampus. [ABSTRACT FROM AUTHOR]

Published

2024

17. Draft Genome Sequencing of Microcoleus sp. HI-ES Isolated from Freshwater in Iraq: Cyanobacterial Strain.

Author

Saeed, Hiba Khaleel, Alsammak, Essra Ghanim, and Haddad, Mohammed Fadhil

Subjects

CYANOBACTERIA, GENE clusters, DNA sequencing, CYCLOHEXIMIDE, NATURAL products

Abstract

Background: Cyanobacteria are a widely dominated group of microorganisms in nature that produce a diverse range of metabolites. Whilst the enormous number of bacterial genomes has deposited in the public databases, the number of cyanobacterial genomes remains limited. Aims: This study aimed to sequence the whole genome of an Iraqi cyanobacterium isolate, designed as Microcoleus sp. HI-ES. Methods: Microcoleus sp. HI-ES was isolated from a freshwater sample collected from the Mosul Dam lake. GB-11 liquid medium was used for primary isolation whereas agarose-GB-11 medium supplemented with lysozyme (100 µg/ml), imipenem (100 |ig/ml), streptomycin (100 µg/ml), and cycloheximide (20 µg/ml) was used to obtain an axenic Microcoleus sp. HI-ES culture. Specialized bioinformatics tools were used for genome assembly, annotation, whole genome-based taxonomy analysis, in silico whole genome DNA-DNA hybridization (isDDH), and biosynthetic gene clusters (BGCs) detection. Results: The results showed that Microcoleus sp. HI-ES genome consists of 4,671,230 bp with a GC content of 47.7% distributed within 6417 contigs and a total of 6264 coding sequences. The whole genome-based phylogeny and isDDH values showed that Microcoleus sp. HI-ES is closed to the type strains: Microcoleus asticus IPMA8, Microcoleus vaginatus PCC 9802, M. vaginatus FGP-2, and Oscillatoria nigroviridis PCC 7112 with isDDH values of 61.7%, 59.8%, 59.8%, and 54.5%, respectively. Ten secondary metabolite BGCs were predicted in Microcoleus sp. HI-ES including four nonrobosomal peptides (NRPs) such as one NRPs, two resorcinol, two terpenes, and one T1PKS. The draft genome sequence of Microcoleus sp. HI-ES has been deposited at DDBJ/ENA/ GenBank under the accession number JAPTMT000000000. Conclusion: The contribution of the depositing of the whole genome sequencing of Microcoleus sp. HI-ES, an Iraqi cyanobacterial strain, in public genbank databases will benefit the scientific community to understanding the potential of this cyanobacterial strain as a promising natural product producer. [ABSTRACT FROM AUTHOR]

Published

2024

18. Pharmacokinetics of cycloheximide in rats and evaluation of its effect as a blocker of intestinal lymph formation.

Author

Al Nebaihi, Hamdah M., Davies, Neal M., and Brocks, Dion R.

Subjects

*CYCLOHEXIMIDE, *PHARMACOKINETICS, *DRUG absorption, *BLOOD lipids, *PEANUT oil

Abstract

[Display omitted] Cycloheximide (CHX) has been used to reduce the flow of intestinal lymph and as a non-surgical tool to study drug absorption via the intestinal lymphatics. Pharmacokinetic information on the agent, and its relationship to effect and toxicity, have not been examined. The goal of this study was to provide pharmacokinetic data and link it to lymph-blocking and toxicological effects. Jugular-vein cannulated (JVC) adult Sprague-Dawley male rats were administered 0.5 mg/kg CHX by oral, intraperitoneal (ip), and intravenous routes followed by blood draws, and CHX was assayed using LC-MS/MS. Another four JVC rats were given peanut oil (2 mL/kg) without and then with CHX to measure effects on lipid absorption as a surrogate indicator of lymph flow. One-week later plasma biochemistry measures were obtained. The results indicated that CHX had a high clearance and volume of distribution, and oral absolute bioavailability of 0.47 with 0.5 mg/kg. CHX was associated with dose- and route-dependent pharmacokinetics. The relative bioavailability after ip doses was over 3. CHX had low plasma protein binding and minor urinary excretion. Metabolism appeared to be occur by oxidation and glucuronidation. Reductions in plasma lipids (24–40 %) were seen after 2.5 mg/kg orally with signs of inflammation and increased liver enzymes persisting for a week after the dose. CHX was associated with a reduction in lipid absorption after oral doses of 2.5 mg/kg, which seems to justify its use as a non-surgical tool to evaluate the lymphatic pathway of absorption of drugs. However, it also possesses hepatotoxicity, which should be taken into consideration in its use. [ABSTRACT FROM AUTHOR]

Published

2023

19. CoCl2‐triggered pseudohypoxic stress induces proteasomal degradation of SIRT4 via polyubiquitination of lysines K78 and K299.

Author

Hampel, Nils, Georgy, Jacqueline, Mehrabipour, Mehrnaz, Lang, Alexander, Lehmkuhl, Isabell, Scheller, Jürgen, Ahmadian, Mohammad R., Floss, Doreen M., and Piekorz, Roland P.

Subjects

PROTEOLYSIS, BIOENERGETICS, SIRTUINS, PROTEASOME inhibitors, QUALITY control, CYCLOHEXIMIDE, PROTEIN stability

Abstract

SIRT4, together with SIRT3 and SIRT5, comprises the mitochondrially localized subgroup of sirtuins. SIRT4 regulates mitochondrial bioenergetics, dynamics (mitochondrial fusion), and quality control (mitophagy) via its NAD+‐dependent enzymatic activities. Here, we address the regulation of SIRT4 itself by characterizing its protein stability and degradation upon CoCl2‐induced pseudohypoxic stress that typically triggers mitophagy. Interestingly, we observed that of the mitochondrial sirtuins, only the protein levels of SIRT4 or ectopically expressed SIRT4‐eGFP decrease upon CoCl2 treatment of HEK293 cells. Co‐treatment with BafA1, an inhibitor of autophagosome–lysosome fusion required for autophagy/mitophagy, or the use of the proteasome inhibitor MG132, prevented CoCl2‐induced SIRT4 downregulation. Consistent with the proteasomal degradation of SIRT4, the lysine mutants SIRT4(K78R) and SIRT4(K299R) showed significantly reduced polyubiquitination upon CoCl2 treatment and were more resistant to pseudohypoxia‐induced degradation as compared to SIRT4. Moreover, SIRT4(K78R) and SIRT4(K299R) displayed increased basal protein stability as compared to wild‐type SIRT4 when subjected to MG132 treatment or cycloheximide (CHX) chase assays. Thus, our data indicate that stress‐induced protein degradation of SIRT4 occurs through two mechanisms: (a) via mitochondrial autophagy/mitophagy, and (b) as a separate process via proteasomal degradation within the cytoplasm. [ABSTRACT FROM AUTHOR]

Published

2023

20. A Droplet-Based Microfluidic Platform for High-Throughput Culturing of Yeast Cells in Various Conditions

Author

Min-Chieh Yu and Yung-Shin Sun

Subjects

microfluidics, micro-droplet, high-throughput, yeast, cycloheximide, Mechanical engineering and machinery, TJ1-1570

Abstract

Yeast plays a significant role in a variety of fields. In particular, it is extensively used as a model organism in genetics and cellular biology studies, and is employed in the production of vaccines, pharmaceuticals, and biofuels. Traditional “bulk”-based studies on yeast growth often overlook cellular variability, emphasizing the need for single-cell analysis. Micro-droplets, tiny liquid droplets with high surface-area-to-volume ratios, offer a promising platform for investigating single or a small number of cells, allowing precise control and monitoring of individual cell behaviors. Microfluidic devices, which facilitate the generation of micro-droplets, are advantageous due to their reduced volume requirements and ability to mimic in vivo micro-environments. This study introduces a custom-designed microfluidic device to encapsulate yeasts in micro-droplets under various conditions in a parallel manner. The results reveal that optimal glucose concentrations promoted yeast growth while cycloheximide and Cu2+ ions inhibited it. This platform enhances yeast cultivation strategies and holds potential for high-throughput single-cell investigations in more complex organisms.

Published

2024

21. Functional filter for whole-genome sequencing data identifies HHT and stress-associated non-coding SMAD4 polyadenylation site variants >5 kb from coding DNA.

Author

Xiao, Sihao, Kai, Zhentian, Murphy, Daniel, Li, Dongyang, Patel, Dilip, Bielowka, Adrianna M., Bernabeu-Herrero, Maria E., Abdulmogith, Awatif, Mumford, Andrew D., Westbury, Sarah K., Aldred, Micheala A., Vargesson, Neil, Caulfield, Mark J., and Shovlin, Claire L.

Subjects

*GENE expression, *NUCLEOTIDE sequencing, *MONONUCLEAR leukocytes, *HEREDITARY hemorrhagic telangiectasia, *RNA polymerase II, *GENE enhancers, *DNA insertion elements, *TRANSPOSONS

Abstract

Despite whole-genome sequencing (WGS), many cases of single-gene disorders remain unsolved, impeding diagnosis and preventative care for people whose disease-causing variants escape detection. Since early WGS data analytic steps prioritize protein-coding sequences, to simultaneously prioritize variants in non-coding regions rich in transcribed and critical regulatory sequences, we developed GROFFFY, an analytic tool that integrates coordinates for regions with experimental evidence of functionality. Applied to WGS data from solved and unsolved hereditary hemorrhagic telangiectasia (HHT) recruits to the 100,000 Genomes Project, GROFFFY-based filtration reduced the mean number of variants/DNA from 4,867,167 to 21,486, without deleting disease-causal variants. In three unsolved cases (two related), GROFFFY identified ultra-rare deletions within the 3′ untranslated region (UTR) of the tumor suppressor SMAD4, where germline loss-of-function alleles cause combined HHT and colonic polyposis (MIM: 175050). Sited >5.4 kb distal to coding DNA, the deletions did not modify or generate microRNA binding sites, but instead disrupted the sequence context of the final cleavage and polyadenylation site necessary for protein production: By iFoldRNA, an AAUAAA-adjacent 16-nucleotide deletion brought the cleavage site into inaccessible neighboring secondary structures, while a 4-nucleotide deletion unfolded the downstream RNA polymerase II roadblock. SMAD4 RNA expression differed to control-derived RNA from resting and cycloheximide-stressed peripheral blood mononuclear cells. Patterns predicted the mutational site for an unrelated HHT/polyposis-affected individual, where a complex insertion was subsequently identified. In conclusion, we describe a functional rare variant type that impacts regulatory systems based on RNA polyadenylation. Extension of coding sequence-focused gene panels is required to capture these variants. Xiao and colleagues generated a filter to prioritize the ∼5 million gDNA variants/DNA from whole-genome sequencing. They identified distal 3′ UTR high-impact, non-coding, rare variants that were adjacent to RNA cleavage and polyadenylation sites, explained previously unsolved clinical phenotypes, and were functionally validated in the participants' peripheral blood mononuclear cells. [ABSTRACT FROM AUTHOR]

Published

2023

22. Combined Exogenous Activation of Bovine Oocytes: Effects on Maturation-Promoting Factor, Mitogen-Activated Protein Kinases, and Embryonic Competence.

Author

Valencia, Cecilia, Pérez-García, Felipe, Aguila, Luis, Felmer, Ricardo, and Arias, María Elena

Subjects

*MITOGEN-activated protein kinases, *OVUM, *PROTEIN synthesis, *BOS, *CYCLOHEXIMIDE

Abstract

Oocyte activation via dual inhibition of protein synthesis and phosphorylation has improved in vitro embryo production in different mammalian species. In this study, we evaluated the effects of the combination of cycloheximide (CHX), dimethyl amino purine (DMAP), and anisomycin (ANY) on the activation of bovine oocytes, particularly on dynamics of MPF and MAPKs, embryonic developmental potential, and quality. The results showed that the cleavage and blastocyst rates, as well as levels of CCNB1, CDK1, p-CDK1Thr161, and p-CDK1Thr14-Tyr15, were similar among groups; ANY and ANY + CHX reduced the expression of ERK1/2 compared to DMAP-combinations (p < 0.05), whereas ANY + DMAP, CHX + DMAP, and ANY + CHX + DMAP reduced p-ERK1/2 compared to ANY and ANY + CHX treatments (p < 0.05). The quality of blastocysts in terms of cell counts, their allocation, and the numbers of TUNEL-positive cells did not differ among groups. However, transcript levels of POU5F1 were higher in embryos derived from ANY + CHX + DMAP treatment compared to other groups, while expression levels of CDX2 did not show differences. In addition, the BCL2A1/BAX ratio of the ANY + CHX + DMAP treatment was significantly low compared to the ANY treatment (p < 0.05) and did not differ significantly from the other treatments. In conclusion, oocyte activation by dual inhibition of protein synthesis and phosphorylation induces MPF inactivation without degradation of CCNB1, while MAPK inactivation occurs differentially between these inhibitors. Thus, although the combined use of these inhibitors does not affect early developmental competence in vitro, it positively impacts the expression of transcripts associated with embryonic quality. [ABSTRACT FROM AUTHOR]

Published

2023

23. Short-Term Inhibition of Translation by Cycloheximide Concurrently Affects Mitochondrial Function and Insulin Secretion in Islets from Female Mice.

Author

Alshafei, Mohammed, Schulze, Torben, Morsi, Mai, Panten, Uwe, and Rustenbeck, Ingo

Subjects

*ISLANDS, *CYCLOHEXIMIDE, *INSULIN, *PROTEIN synthesis, *MITOCHONDRIAL proteins

Abstract

Since glucose stimulates protein biosynthesis in beta cells concomitantly with the stimulation of insulin release, the possible interaction of both processes was explored. The protein biosynthesis was inhibited by 10 μM cycloheximide (CHX) 60 min prior to the stimulation of perifused, freshly isolated or 22 h-cultured NMRI mouse islets. CHX reduced the insulinotropic effect of 25 mM glucose or 500 μM tolbutamide in fresh but not in cultured islets. In cultured islets the second phase of glucose stimulation was even enhanced. In fresh and in cultured islets CHX strongly reduced the content of proinsulin, but not of insulin, and moderately diminished the [Ca2+]i increase during stimulation. The oxygen consumption rate (OCR) of fresh islets was about 50% higher than that of cultured islets at basal glucose and was significantly increased by glucose but not tolbutamide. In fresh, but not in cultured, islets CHX diminished the glucose-induced OCR increase and changes in the NAD(P)H- and FAD-autofluorescence. It is concluded that short-term CHX exposure interferes with the signal function of the mitochondria, which have different working conditions in fresh and in cultured islets. The interference may not be an off-target effect but may result from the inhibited cytosolic synthesis of mitochondrial proteins. [ABSTRACT FROM AUTHOR]

Published

2023

24. Transcriptomic Analysis Reveals Novel Regulators of the Scots Pine Stilbene Pathway.

Author

Paasela, Tanja, Lim, Kean-Jin, Pavicic, Mirko, Harju, Anni, Venäläinen, Martti, Paulin, Lars, Auvinen, Petri, Kärkkäinen, Katri, and Teeri, Teemu H

Subjects

*SCOTS pine, *STILBENE, *TRANSCRIPTOMES, *WOOD-decaying fungi, *PINE needles, *PHOSPHATASE inhibitors

Abstract

Stilbenes accumulate in Scots pine heartwood where they have important roles in protecting wood from decaying fungi. They are also part of active defense responses, and their production is induced by different (a)biotic stressors. The specific transcriptional regulators as well as the enzyme responsible for activating the stilbene precursor cinnamate in the pathway are still unknown. UV-C radiation was the first discovered artificial stress activator of the pathway. Here, we describe a large-scale transcriptomic analysis of pine needles in response to UV-C and treatment with translational inhibitors, both activating the transcription of stilbene pathway genes. We used the data to identify putative candidates for the missing CoA ligase and for pathway regulators. We further showed that the pathway is transcriptionally activated by phosphatase inhibitor, ethylene and jasmonate treatments, as in grapevine, and that the stilbene synthase promoter retains its inducibility in some of the tested conditions in Arabidopsis, a species that normally does not synthesize stilbenes. Shared features between gymnosperm and angiosperm regulation and partially retained inducibility in Arabidopsis suggest that pathway regulation occurs not only via ancient stress-response pathway(s) but also via species-specific regulators. Understanding which genes control the biosynthesis of stilbenes in Scots pine aids breeding of more resistant trees. [ABSTRACT FROM AUTHOR]

Published

2023

25. Identifying Potent Nonsense-Mediated mRNA Decay Inhibitors with a Novel Screening System.

Author

Carrard, Julie, Ratajczak, Fiona, Elsens, Joséphine, Leroy, Catherine, Kong, Rebekah, Geoffroy, Lucie, Comte, Arnaud, Fournet, Guy, Joseph, Benoît, Li, Xiubin, Moebs-Sanchez, Sylvie, and Lejeune, Fabrice

Subjects

NONSENSE mutation, MESSENGER RNA, GENETIC disorders, QUALITY control, CYCLOHEXIMIDE

Abstract

Nonsense-mediated mRNA decay (NMD) is a quality control mechanism that degrades mRNAs carrying a premature termination codon. Its inhibition, alone or in combination with other approaches, could be exploited to develop therapies for genetic diseases caused by a nonsense mutation. This, however, requires molecules capable of inhibiting NMD effectively without inducing toxicity. We have built a new screening system and used it to identify and validate two new molecules that can inhibit NMD at least as effectively as cycloheximide, a reference NMD inhibitor molecule. These new NMD inhibitors show no cellular toxicity at tested concentrations and have a working concentration between 6.2 and 12.5 µM. We have further validated this NMD-inhibiting property in a physiopathological model of lung cancer in which the TP53 gene carries a nonsense mutation. These new molecules may potentially be of interest in the development of therapies for genetic diseases caused by a nonsense mutation. [ABSTRACT FROM AUTHOR]

Published

2023

26. The Properties and Domain Requirements for Phase Separation of the Sup35 Prion Protein In Vivo.

Author

Grimes, Bryan, Jacob, Walter, Liberman, Amanda R., Kim, Nathan, Zhao, Xiaohong, Masison, Daniel C., and Greene, Lois E.

Subjects

*PHASE separation, *PRIONS, *PROTEINS, *CYCLOHEXIMIDE, *RIBOSOMES

Abstract

The Sup35 prion protein of budding yeast has been reported to undergo phase separation to form liquid droplets both at low pH in vitro and when energy depletion decreases the intracellular pH in vivo. It also has been shown using purified proteins that this phase separation is driven by the prion domain of Sup35 and does not re-quire its C-terminal domain. In contrast, we now find that a Sup35 fragment consisting of only the N-terminal prion domain and the M-domain does not phase separate in vivo; this phase separation of Sup35 requires the C-terminal domain, which binds Sup45 to form the translation termination complex. The phase-separated Sup35 not only colocalizes with Sup45 but also with Pub1, a stress granule marker protein. In addition, like stress granules, phase separation of Sup35 appears to require mRNA since cycloheximide treatment, which inhibits mRNA release from ribosomes, prevents phase separation of Sup35. Finally, unlike Sup35 in vitro, Sup35 condensates do not disassemble in vivo when the intracellular pH is increased. These results suggest that, in energy-depleted cells, Sup35 forms supramolecular assemblies that differ from the Sup35 liquid droplets that form in vitro. [ABSTRACT FROM AUTHOR]

Published

2023

27. Exploring SARM1 as a target to delay programmed axon degeneration

Author

Gould, Stacey and Coleman, Michael

Subjects

612.8, programmed axon degeneration, programmed axon death, Wallerian degeneration, SARM1, NMNAT2, axon vulnerability, risk factor, Alzheimer's disease, sporadic Alzheimer's disease, neurodegeneration, axotomy, transection injury, vincristine, chemotherapy, roteneone, mitochondrial dysfunction, cycloheximide, protein translation inhibition, neurite outgrowth, antisense oligonucleotide therapy, neuroprotection

Abstract

Programmed axon degeneration (Wallerian degeneration) can occur after physical injury, inhibition of axon transport, exposure to neurotoxic compounds, and in diseases involving mitochondrial or metabolic dysfunction. There is increasing evidence that this pathway can be activated in human painful neuropathies and preclinical evidence suggests it is also active in neurodegenerative conditions, such as Parkinson’s disease and Amyotrophic Lateral Sclerosis. Programmed axon degeneration is a potentially druggable pathway with preclinical studies showing that increasing levels of pro-survival factor NMNAT2, and removal of MYCBP2 involved in protein ubiquitination and turnover, or prodegenerative protein SARM1 can delay programmed axon degeneration. Preclinical studies indicate that complete genetic removal of Sarm1 leads to the strongest protection in vivo after physical transection injury and also prevents perinatal lethality in mice lacking NMNAT2. This makes SARM1 an attractive protein to explore in the context of delaying programmed axon degeneration for therapeutic effect. However, until this thesis, the extent to which SARM1 activity needs to be decreased has been unclear. This thesis explores the possibility of targeting the SARM1 protein for therapeutic effect. Firstly, since decreasing protein levels or activity is more achievable than completely eliminating them, the effect of Sarm1 hemizygosity in mice was assessed. Data presented here show that the rate of programmed axon degeneration can be slowed by the absence of one allele after in vivo transection injury, and axon outgrowth deficits in a developmental system where the pathway is active can be partially restored. Degeneration can also be slowed after a range of in vitro triggers of programmed axon degeneration showing clearly that decreasing (and not just removing) SARM1 can be beneficial. Secondly, targeting SARM1 through antisense oligonucleotides shows that SARM1 protein levels can be decreased in vitro to a similar extent as Sarm1 hemizygosity using exogenously-applied nucleotides. This decrease in protein levels confers a delay in programmed axon degeneration in a range of in vitro models suggesting that targeting SARM1 is a viable therapeutic approach. Finally, use of a non-transgenic dietary model of sporadic Alzheimer’s disease (sAD) was used to explore links between sAD and programmed axon degeneration but no differences in axon transport or signs of programmed axon degeneration were detected in this model. Nevertheless, this thesis demonstrates that targeting SARM1 pharmacologically is feasible and can delay degeneration after diverse triggers. Thus, further research into the relevant in vivo disease models could advance this strategy towards clinical application.

Published

2021

28. Influence of reconsolidation in maintenance of cocaine-associated contextual memories formed during adolescence or adulthood.

Author

Charpentier, André N. Herrera, Olekanma, Doris I., Valade, Christian T., Reeves, Christopher A., Cho, Bo Ram, and Arguello, Amy A.

Subjects

*COCAINE, *ADULTS, *ADOLESCENCE, *SUBCUTANEOUS injections, *PROTEIN synthesis, *AT-risk youth, *CYCLOHEXIMIDE, *YOUNG adults

Abstract

Adolescents are at increased risk to develop substance use disorders and suffer from relapse throughout life. Targeted weakening of drug-associated memories has been shown to reduce relapse-like behavior in adult rats, however this process has been understudied in adolescents. We aimed to examine whether adolescent-formed, cocaine-associated memories could be manipulated via reconsolidation mechanisms. To accomplish this objective, we used an abbreviated operant cocaine self-administration paradigm (ABRV Coc-SA). Adult and adolescent rats received jugular catheterization surgery followed by ABRV Coc-SA in a distinct context for 2 h, 2×/day over 5 days. Extinction training (EXT) occurred in a second context for 2 h, 2×/day over 4 days. To retrieve cocaine-context memories, rats were exposed to the cocaine-paired context for 15 min, followed by subcutaneous injection of vehicle or the protein synthesis inhibitor cycloheximide (2.5 mg/kg). Two additional EXT sessions were conducted before a 2 h reinstatement test in the cocaine-paired context to assess cocaine-seeking behavior. We find that both adult and adolescent cocaine-exposed rats show similar levels of cocaine-seeking behavior regardless of post-reactivation treatment. Our results suggest that systemic treatment with the protein synthesis inhibitor cycloheximide does not impair reconsolidation of cocaine-context memories and subsequent relapse during adulthood or adolescence. [ABSTRACT FROM AUTHOR]

Published

2023

29. Cytokinin Promotes Jasmonic Acid Accumulation in the Control of Maize Leaf Growth.

Author

Uyehara, Aimee N., Del Valle-Echevarria, Angel R., Hunter, Charles T., Nelissen, Hilde, Demuynck, Kirin, Cahill, James F., Gorman, Zachary, Jander, Georg, and Muszynski, Michael G.

Subjects

LEAF growth, JASMONIC acid, CELL division, CYCLOHEXIMIDE, PLANT growth

Abstract

Plant organ growth results from the combined activity of cell division and cell expansion. The co-ordination of these two processes depends on the interplay between multiple hormones that determine the final organ size. Using the semidominant Hairy Sheath Frayed1 (Hsf1) maize mutant that hypersignals the perception of cytokinin (CK), we show that CK can reduce leaf size and growth rate by decreasing cell division. Linked to CK hypersignaling, the Hsf1 mutant has an increased jasmonic acid (JA) content, a hormone that can inhibit cell division. The treatment of wild-type seedlings with exogenous JA reduces maize leaf size and growth rate, while JA-deficient maize mutants have increased leaf size and growth rate. Expression analysis revealed the increased transcript accumulation of several JA pathway genes in the Hsf1 leaf growth zone. A transient treatment of growing wild-type maize shoots with exogenous CK also induced the expression of JA biosynthetic genes, although this effect was blocked by the co-treatment with cycloheximide. Together, our results suggest that CK can promote JA accumulation, possibly through the increased expression of specific JA pathway genes. [ABSTRACT FROM AUTHOR]

Published

2023

30. A lipid scramblase TMEM41B is involved in the processing and transport of GPI-anchored proteins.

Author

Cao, Shu-Ya, Liu, Yi-Shi, Gao, Xiao-Dong, Kinoshita, Taroh, and Fujita, Morihisa

Subjects

*CARRIER proteins, *MEMBRANE proteins, *PROTEIN transport, *PHOSPHOLIPASE C, *LIPIDS, *SELENOPROTEINS

Abstract

Protein modification by glycosylphosphatidylinositol (GPI) takes place in the endoplasmic reticulum (ER). GPI-anchored proteins (GPI-APs) formed in the ER are transported to the cell surface through the Golgi apparatus. During transport, the GPI-anchor structure is processed. In most cells, an acyl chain modified to the inositol of GPI is removed by a GPI-inositol deacylase, PGAP1, in the ER. Inositol-deacylated GPI-APs become sensitive to bacterial phosphatidylinositol-specific phospholipase C (PI-PLC). We previously reported that GPI-APs are partially resistant to PI-PLC when PGAP1 activity is weakened by the deletion of selenoprotein T (SELT) or cleft lip and palate transmembrane protein 1 (CLPTM1). In this study, we found that the loss of TMEM41B, an ER-localized lipid scramblase, restored PI-PLC sensitivity of GPI-APs in SELT-knockout (KO) and CLPTM1-KO cells. In TMEM41B-KO cells, the transport of GPI-APs as well as transmembrane proteins from the ER to the Golgi was delayed. Furthermore, the turnover of PGAP1, which is mediated by ER-associated degradation, was slowed in TMEM41B-KO cells. Taken together, these findings indicate that inhibition of TMEM41B-dependent lipid scrambling promotes GPI-AP processing in the ER through PGAP1 stabilization and slowed protein trafficking. [ABSTRACT FROM AUTHOR]

Published

2023

31. Nucleation seed size determines amyloid clearance and establishes a barrier to prion appearance in yeast

Author

Villali, Janice, Dark, Jason, Brechtel, Teal M, Pei, Fen, Sindi, Suzanne S, and Serio, Tricia R

Subjects

Biochemistry and Cell Biology, Biological Sciences, Dementia, Brain Disorders, Neurodegenerative, Rare Diseases, Neurosciences, Transmissible Spongiform Encephalopathy (TSE), Acquired Cognitive Impairment, Emerging Infectious Diseases, Infectious Diseases, Underpinning research, Aetiology, 2.1 Biological and endogenous factors, 1.1 Normal biological development and functioning, Amyloid, Cycloheximide, Heat-Shock Proteins, Peptide Termination Factors, Prions, Saccharomyces cerevisiae, Saccharomyces cerevisiae Proteins, Chemical Sciences, Medical and Health Sciences, Biophysics, Developmental Biology, Biological sciences, Biomedical and clinical sciences, Chemical sciences

Abstract

Amyloid appearance is a rare event that is promoted in the presence of other aggregated proteins. These aggregates were thought to act by templating the formation of an assembly-competent nucleation seed, but we find an unanticipated role for them in enhancing the persistence of amyloid after it arises. Specifically, Saccharomyces cerevisiae Rnq1 amyloid reduces chaperone-mediated disassembly of Sup35 amyloid, promoting its persistence in yeast. Mathematical modeling and corresponding in vivo experiments link amyloid persistence to the conformationally defined size of the Sup35 nucleation seed and suggest that amyloid is actively cleared by disassembly below this threshold to suppress appearance of the [PSI+] prion in vivo. Remarkably, this framework resolves multiple known inconsistencies in the appearance and curing of yeast prions. Thus, our observations establish the size of the nucleation seed as a previously unappreciated characteristic of prion variants that is key to understanding transitions between prion states.

Published

2020

32. Cycloheximide promotes type I collagen maturation mainly via collagen prolyl 4-hydroxylase subunit α2

Author

Shi Run, Xu Miao, Ye Huazhe, Gao Shanshan, Li Jingfeng, Li Huan, and Li Chaoyang

Subjects

cycloheximide, type I collagen, collagen prolyl 4-hydroxylases, proline hydroxylation, Biochemistry, QD415-436, Genetics, QH426-470

Abstract

Aberrant deposition of collagen is associated with cancer development and tissue fibrosis. Proline hydroxylation, catalyzed by collagen prolyl 4-hydroxylases (C-P4Hs), is necessary for collagen maturation and secretion. Here, we try to evaluate the mechanism of the regulation of CHX on collagen maturation. Using pepsin digestion, liquid chromatograph mass spectrometry and gene knockout, we find that treatment of mouse embryonic fibroblasts with cycloheximide (CHX) increases type I collagen proline hydroxylation partially via P4HA1 and mainly via P4HA2. Western blot analysis results show that CHX treatment reduces type I collagen but does not obviously impact the level of P4HA1/2 protein in the endoplasmic reticulum, which enhances the molar ratio of P4HA1/2 to type I collagen, and coimmunoprecipitation results confirm that more P4HA1/2 can bind to each type I collagen. Since C-P4Hs possess the capability to hydroxylate proline independent of ascorbate for a few cycles, this enhanced binding between P4HA1/2 and type I collagen can partially explain how CHX stimulates type I collagen maturation.

Published

2022

33. Investigating temperature signalling pathways in Arabidopsis thaliana using small molecules

Author

Schoepfer, David and Wigge, Philip A.

Subjects

583, heat stress, HSP70, chemical genomics, Syngenta, cold shock, calcium signalling, translation inhibitor, cycloheximide, thermotolerance, temperature signalling

Abstract

Upon exposure to heat or cold, Arabidopsis thaliana seedlings undergo rapid transcriptional reprogramming of several hundreds of genes that promote stress tolerance. Despite extensive characterisation of the transcriptional responses to these stimuli, however, relatively little is known about the mechanisms by which temperature signals are perceived and transduced in plant cells. High or low seasonal temperatures have large impacts on crop productivity and are expected to intensify given current global climatic projections. It is therefore of agricultural importance to better understand temperature signalling pathways in plants in order to find solutions to this problem. In this thesis, a chemical genomics screen for molecules activating or repressing heat-inducible genes in A. thaliana was performed in collaboration with Syngenta and the biological targets of these chemicals were predicted based on structural similarities to compounds with known modes of action. Many molecules that affect the function of chloroplasts or mitochondria either activate or repress heat-responsive genes, thus implicating these organelles in the regulation of plant temperature responses. In addition, the translation inhibitor cycloheximide was identified as a repressor of heat-inducible genes and an activator of early cold-inducible genes. Diverse translation inhibitors trigger a cytosolic influx of calcium ions and several inhibitors of translation elongation were found to strongly activate cold-inducible gene expression in a calcium-dependent manner. Furthermore, it was demonstrated that cold shock causes rapid translation repression in A. thaliana seedlings and that the elongation factor LOS1 is involved in cold- or cycloheximide-induced gene expression, thus implicating translational machinery in the regulation of temperature signalling in plants. Finally, one of the chemicals identified in the screen, S01A463859Y, was found to improve heat resilience in A. thaliana and may therefore be of potential use in enhancing crop productivity during thermal stress.

Published

2019

34. Efficient production of recombinant proteins in suspension CHO cells culture using the Tol2 transposon system coupled with cycloheximide resistance selection.

Author

Yamaguchi, Keina, Ogawa, Risa, Tsukahara, Masayoshi, and Kawakami, Koichi

Subjects

*CHO cell, *TRANSPOSONS, *RECOMBINANT proteins, *CELL culture, *CELL suspensions, *CYCLOHEXIMIDE, *CELL lines

Abstract

DNA recombination techniques in mammalian cells has been applied to the production of therapeutic proteins for several decades. To be used for commercial production, established cell lines should stably express target proteins with high productivity and acceptable quality for human use. In the conventional transfection method, the screening process is laborious and time-consuming since superior cell lines had to be selected from an enormous number of transfected cell pools and clonal cell lines with a wide variety of transgene insertion locations. In this study, we demonstrated that the combination of a Tol2 transposon system and cell selection by cycloheximide resistance is an efficient method to express therapeutic proteins, such as human antibody in suspension culture of Chinese hamster ovary cells. The resulting stable cell lines showed constant productivity and cell growth over a long enough cultivation periods for recombinant protein production. We anticipate that this approach will prove widely applicable to protein production in research and development of pharmaceutical products. [ABSTRACT FROM AUTHOR]

Published

2023

35. The Yeast Permease Agp2 Senses Cycloheximide and Undergoes Degradation That Requires the Small Protein Brp1-Cellular Fate of Agp2 in Response to Cycloheximide.

Author

Mohanty, Ashima, Alhaj Sulaiman, Abdallah, Moovarkumudalvan, Balasubramanian, Ali, Reem, Aouida, Mustapha, and Ramotar, Dindial

Subjects

*POLYAMINES, *CYCLOHEXIMIDE, *GREEN fluorescent protein, *MEMBRANE proteins, *BLOOD proteins, *PROTEINS

Abstract

The Saccharomyces cerevisiae Agp2 is a plasma membrane protein initially reported to be an uptake transporter for L-carnitine. Agp2 was later rediscovered, together with three additional proteins, Sky1, Ptk2, and Brp1, to be involved in the uptake of the polyamine analogue bleomycin-A5, an anticancer drug. Mutants lacking either Agp2, Sky1, Ptk2, or Brp1 are extremely resistant to polyamines and bleomycin-A5, suggesting that these four proteins act in the same transport pathway. We previously demonstrated that pretreating cells with the protein synthesis inhibitor cycloheximide (CHX) blocked the uptake of fluorescently labelled bleomycin (F-BLM), raising the possibility that CHX could either compete for F-BLM uptake or alter the transport function of Agp2. Herein, we showed that the agp2Δ mutant displayed striking resistance to CHX as compared to the parent, suggesting that Agp2 is required to mediate the physiological effect of CHX. We examined the fate of Agp2 as a GFP tag protein in response to CHX and observed that the drug triggered the disappearance of Agp2 in a concentration- and time-dependent manner. Immunoprecipitation analysis revealed that Agp2-GFP exists in higher molecular weight forms that were ubiquitinylated, which rapidly disappeared within 10 min of treatment with CHX. CHX did not trigger any significant loss of Agp2-GFP in the absence of the Brp1 protein; however, the role of Brp1 in this process remains elusive. We propose that Agp2 is degraded upon sensing CHX to downregulate further uptake of the drug and discuss the potential function of Brp1 in the degradation process. [ABSTRACT FROM AUTHOR]

Published

2023

36. Potential bio-herbicide from Streptomyces sp. KR0005 to control weeds in a horticultural field.

Author

Umurzokov, Mirjalol, Kim, Young Sook, Kim, Hye Jin, Shin, Seung Cheol, Weiqiang, Jia, Min Cho, Kwang, Sup Choi, Jung, and Park, Kee Woong

Subjects

*ELECTROSPRAY ionization mass spectrometry, *WEED control, *HERBICIDES, *STREPTOMYCES

Abstract

Herbicidal active metabolites obtained from actinomycetes provide valuable sources in the search for new candidates. They might be striking alternatives to synthetic herbicides. In the present study, actinobacteria strains were isolated from soil samples and their herbicidal activities were screened. In the screening, Streptomyces sp. strain KR0005 broth culture exhibited the highest phytotoxic activity. Thus, it was selected for further studies. The herbicidal active compound purified from this selected strain was identified as cycloheximide (MW, 281.; C15H23NO4) based on 1H-NMR, 13C-NMR, 2D-NMR, and high-resolution electrospray ionisation mass spectrometry analyses. Dose–response experiments revealed that the GR50 value of Digitaria ciliaris was 1.37 g L−1 to Streptomyces sp. strain KR0005 culture filtrate. In general, the inclusion of v/v 0.1% of LES270 (Alcohols, (C12-14), ethoxylated, mono ethers with sulphuric acid, sodium salts) and SF90 (Alcohols, C12-14-secondary, ethoxylated) surfactants resulted in a 14.3% decrease and a 24.1% increase in herbicidal activity, respectively, compared with Tween-20 (Polyoxyethylene sorbitan monolaurate). Mode of action experiments revealed that the KR0005 culture filtrate acted as both photosynthesis and cell membrane integrity inhibitors in a dose-dependent manner. However, further studies such as mutation and/or specific culture conditions are needed to increase the herbicidal activity of this selected strain. [ABSTRACT FROM AUTHOR]

Published

2023

37. Mycophenolic acid directly protects podocytes by preserving the actin cytoskeleton and increasing cell survival.

Author

Abo Zed, Seif El Din, Hackl, Agnes, Bohl, Katrin, Ebert, Lena, Kieckhöfer, Emilia, Müller, Carsten, Becker, Kerstin, Fink, Gregor, Nüsken, Kai-Dietrich, Nüsken, Eva, Müller, Roman-Ulrich, Schermer, Bernhard, and Weber, Lutz T.

Subjects

*CYTOSKELETON, *CELL survival, *MYCOPHENOLIC acid, *SERUM albumin, *CYCLOHEXIMIDE

Abstract

Mycophenolate Mofetil (MMF) has an established role as a therapeutic agent in childhood nephrotic syndrome. While other immunosuppressants have been shown to positively affect podocytes, direct effects of MMF on podocytes remain largely unknown. The present study examines the effects of MMF's active component Mycophenolic Acid (MPA) on the transcriptome of podocytes and investigates its biological significance. We performed transcriptomics in cultured murine podocytes exposed to MPA to generate hypotheses on podocyte-specific effects of MPA. Accordingly, we further analyzed biological MPA effects on actin cytoskeleton morphology after treatment with bovine serum albumin (BSA) by immunofluorescence staining, as well as on cell survival following exposure to TNF-α and cycloheximide by neutral red assay. MPA treatment significantly (adjusted p < 0.05) affected expression of 351 genes in podocytes. Gene Ontology term enrichment analysis particularly clustered terms related to actin and inflammation-related cell death. Indeed, quantification of the actin cytoskeleton of BSA treated podocytes revealed a significant increase of thickness and number of actin filaments after treatment with MPA. Further, MPA significantly reduced TNFα and cycloheximide induced cell death. MPA has a substantial effect on the transcriptome of podocytes in vitro, particularly including functional clusters related to non-immune cell dependent mechanisms. This may provide a molecular basis for direct beneficial effects of MPA on the structural integrity and survival of podocytes under pro-inflammatory conditions. [ABSTRACT FROM AUTHOR]

Published

2023

38. Nuclear envelope expansion in budding yeast is independent of cell growth and does not determine nuclear volume.

Author

Walters, Alison D, Amoateng, Kwabena, Wang, Renjie, Chen, Jian-Hua, McDermott, Gerry, Larabell, Carolyn A, Gadal, Olivier, and Cohen-Fix, Orna

Subjects

Nuclear Envelope, Endoplasmic Reticulum, Saccharomycetales, Cycloheximide, Fatty Acids, Phospholipids, Tomography, Cell Cycle, Cell Proliferation, Phenotype, Mutation, Fluorescence, Cell Nucleus Size, Secretory Pathway, Biological Sciences, Medical and Health Sciences, Developmental Biology

Abstract

Most cells exhibit a constant ratio between nuclear and cell volume. The mechanism dictating this constant ratio and the nuclear component(s) that scale with cell size are not known. To address this, we examined the consequences to the size and shape of the budding yeast nucleus when cell expansion is inhibited by down-regulating components of the secretory pathway. We find that under conditions where cell size increase is restrained, the nucleus becomes bilobed, with the bulk of the DNA in one lobe and the nucleolus in the other. The formation of bilobed nuclei is dependent on fatty acid and phospholipid synthesis, suggesting that it is associated with nuclear membrane expansion. Bilobed nuclei appeared predominantly after spindle pole body separation, suggesting that nuclear envelope expansion follows cell-cycle cues rather than cell size. Importantly, cells with bilobed nuclei had the same nuclear:cell volume ratio as cells with round nuclei. Therefore, the bilobed nucleus could be a consequence of continued NE expansion as cells traverse the cell cycle without an accompanying increase in nuclear volume due to the inhibition of cell growth. Our data suggest that nuclear volume is not determined by nuclear envelope availability but by one or more nucleoplasmic factors.

Published

2019

39. Corrigendum: A novel assisted oocyte activation method improves fertilization in patients with recurrent fertilization failure

Author

Meng Wang, Lixia Zhu, Chang Liu, Hui He, Cheng Wang, Chenxi Xing, Jinming Liu, Liu Yang, Qingsong Xi, Zhou Li, and Lei Jin

Subjects

assisted oocyte activation, total fertilization failure, cycloheximide, ionomycin, intracytoplasmic sperm injection, Biology (General), QH301-705.5

Published

2023

40. Diversity of Actinomycetes in Tomato Plants.

Author

Veilumuthu, P. and Christopher, J. Godwin

Subjects

*ACTINOBACTERIA, *PLANT extracts, *PLANT growth, *NYSTATIN, *CYCLOHEXIMIDE, *INDUSTRIAL location

Abstract

Background: Tomato plant holds great biodiversity of actinomycetes. This diversity can be explored for new potential actinomycetes strains. Methods: Two different methods were followed for actinomycetes isolation (Serial dilution and direct streaking method). The direct streaking method was found to be the best method where it gave a higher number of actinomycetes compared to the plant extract method. All the actinomycetes were isolated by ISP2 medium supplemented with nystatin and cycloheximide (at 50 μg/ml). All the endophytic actinomycetes strains were isolated and purified based on the difference in appearances such as colony morphology, growth pattern, aerial hyphae growth, filamentous appearance and pigment production. Result: The direct streak method, yielded 192 isolates and only 48 isolates by plant extract method. Thus, a total of 240 strains were isolated. Plants from Madurai yielded a maximum of 130 isolates (54%) and a minimum from Tuticorin 20 isolates (8%). The highest viable count of 80.01±14.24 (CFU g-1) x 10³ were recorded in the agro-fields of Dindugal followed by Madurai, Theni, Tirunelveli and Tuticorin. Out of 240 strains, 49.5% exhibited different aerial hyphae and 36.25% showed different filamentous appearances of growth and 5.8% produced pigments. The endophytic actinomycetes species isolated from tomato plants in different locations possess significant morphologically varied actinobacterial diversity. We can explore further on how these diverse actinomycetes are involved in plant growth promotion and protection against pathogens. [ABSTRACT FROM AUTHOR]

Published

2023

41. Mitochondrial plasticity supports proliferative outgrowth and invasion of ovarian cancer spheroids during adhesion.

Author

Grieco, Joseph P., Compton, Stephanie L. E., Bano, Nazia, Brookover, Lucy, Nichenko, Anna S., Drake, Joshua C., and Schmelz, Eva M.

Subjects

MITOCHONDRIA, CELL morphology, PHENOTYPIC plasticity, TISSUE culture, OVARIAN cancer, CYCLOHEXIMIDE, PERITONEAL cancer

Abstract

Background: Ovarian cancer cells aggregate during or after exfoliation from the primary tumor to form threedimensional spheroids. Spheroid formation provides a survival advantage during peritoneal dissemination in nutrient and oxygen-depleted conditions which is accompanied by a suppressed metabolic phenotype and fragmented mitochondria. Upon arrival to their metastatic sites, spheroids adhere to peritoneal organs and transition to a more epithelial phenotype to support outgrowth and invasion. In this study, we investigated the plasticity of mitochondrial morphology, dynamics, and function upon adhesion. Methods: Using our slow-developing (MOSE-L) and fast-developing (MOSE-LTICv) ovarian cancer models, we mimicked adhesion and reoxygenation conditions by plating the spheroids onto tissue culture dishes and changing culture conditions from hypoxia and low glucose to normoxia with high glucose levels after adhesion. We used Western Blot, microscopy and Seahorse analyses to determine the plasticity of mitochondrial morphology and functions upon adhesion, and the impact on proliferation and invasion capacities. Results: Independent of culture conditions, all spheroids adhered to and began to grow onto the culture plates. While the bulk of the spheroid was unresponsive, the mitochondrial morphology in the outgrowing cells was indistinguishable from cells growing in monolayers, indicating that mitochondrial fragmentation in spheroids was indeed reversible. This was accompanied by an increase in regulators of mitobiogenesis, PGC1a, mitochondrial mass, and respiration. Reoxygenation increased migration and invasion in both cell types but only the MOSE-L responded with increased proliferation to reoxygenation. The highly aggressive phenotype of the MOSE-LTICv was characterized by a relative independence of oxygen and the preservation of higher levels of proliferation, migration and invasion even in limiting culture conditions but a higher reliance on mitophagy. Further, the outgrowth in these aggressive cells relies mostly on proliferation while the MOSE-L cells both utilize proliferation and migration to achieve outgrowth. Suppression of proliferation with cycloheximide impeded aggregation, reduced outgrowth and invasion via repression of MMP2 expression and the flattening of the spheroids. Discussion: Our studies indicate that the fragmentation of the mitochondria is reversible upon adhesion. The identification of regulatory signaling molecules and pathways of these key phenotypic alterations that occur during primary adhesion and invasion is critical for the identification of druggable targets for therapeutic intervention to prevent aggressive metastatic disease. [ABSTRACT FROM AUTHOR]

Published

2023

42. 494P Evaluation of transcriptome forward computational strategies to improve molecular diagnosis in rare pediatric neuromuscular disease.

Author

Silverstein, S., Ganapathy, K., Donkervoort, S., Moy, J., Uapinyoying, B., Gorokhova, S., Ganesh, V., Weisburd, B., Orbach, R., Foley, A., Mohammadi, P., Adams, D., and Bonnemann, C.

Subjects

*NEUROMUSCULAR diseases, *MOLECULAR diagnosis, *JUVENILE diseases, *NUCLEOTIDE sequencing, *CYCLOHEXIMIDE

Abstract

Pediatric neuromuscular diseases are a genetically and clinically heterogenous group of disorders of which 30-60% remain molecularly undiagnosed even after evaluation with exome or genome sequencing. Estimates for added diagnostic benefit of transcriptomic sequencing range between 7-32% across different disease groups. Recently, open-source computational tools designed to systematically survey transcriptomic sequencing data for aberrant events have become available. In this study we assess the sensitivity of DROP (OUTRIDER, FRASER and MAE), MINTIE, LeafcutterMD, and ANEVA-H to detect known outliers in pediatric neuromuscular cohorts in order to identify the optimal set of tools for diagnostic use. Each tool selected utilizes a different statistical strategy and experimental design geared for rare disease. Tools were run on three transcriptome cohorts from the NINDS Neuromuscular and Neurogenetic Diseases of Childhood Section: muscle tissue (n=71), cycloheximide treated fibroblasts (n=79) and untreated fibroblasts (n=37). For splicing tools, MINTIE is the best performing tool (recall rate = 9/21, 42%), followed by FRASER (recall rate = 16/41, 36%), then LeafcutterMD (recall rate = 0/41, 0%). For expression outliers, OUTRIDER detects 6% of true positives (1/15), while the addition of healthy GTEx controls does not improve detection. For monoallelic expression, MAE and ANEVA-H will be compared. Additional evaluations to identify the optimal RNA library preparation methodology for these tools is also in progress. Thus far, OUTRIDER yielded one new candidate diagnosis of TRIP4 related disease. Analysis for new candidate variants is ongoing. Based on these results, and those of ongoing experiments, we will provide recommendations for the use of these tools in diagnostic pipelines for rare pediatric neuromuscular disease. [ABSTRACT FROM AUTHOR]

Published

2024

43. Understanding lymphatic drug delivery through chylomicron blockade: A retrospective and prospective analysis.

Author

Yousef, Malaz, Bou-Chacra, Nadia, Löbenberg, Raimar, and Davies, Neal M.

Subjects

*DRUG absorption, *CYCLOHEXIMIDE, *DRUG interactions, *EVIDENCE gaps, *COLCHICINE

Abstract

Scientists have developed and employed various models to investigate intestinal lymphatic uptake. One approach involves using specific blocking agents to influence the chylomicron-mediated lymphatic absorption of drugs. Currently utilized models include pluronic L-81, puromycin, vinca alkaloids, colchicine, and cycloheximide. This review offers a thorough analysis of the diverse models utilized, evaluating existing reports while delineating the gaps in current research. It also explores pharmacokinetic related aspects of intestinal lymphatic uptake pathway and its blockage through the discussed models. Pluronic L-81 has a reversible effect, minimal toxicity, and unique mode of action. Yet, it lacks clinical reports on chylomicron pathway blockage, likely due to low concentrations used. Puromycin and vinca alkaloids, though documented for toxicity, lack information on their application in drug intestinal lymphatic uptake. Other vinca alkaloids show promise in affecting triglyceride profiles and represent possible agents to test as blockers. Colchicine and cycloheximide, widely used in pharmaceutical development, have demonstrated efficacy, with cycloheximide preferred for lower toxicity. However, further investigation into effective and toxic doses of colchicine in humans is needed to understand its clinical impact. The review additionally followed the complete journey of oral lymphatic targeting drugs from intake to excretion, provided a pharmacokinetic equation considering the intestinal lymphatic pathway for assessing bioavailability. Moreover, the possible application of urinary data as a non-invasive way to measure the uptake of drugs through intestinal lymphatics was illustrated, and the likelihood of drug interactions when specific blockers are employed in human subjects was underscored. [ABSTRACT FROM AUTHOR]

Published

2024

44. Automated radiosynthesis and preclinical in vivo evaluation of [18F]Fluoroethylpuromycin as a potential radiotracer for imaging protein synthesis with PET.

Author

Ramakrishnan, Nisha K., Betts, Helen M., Sephton, Selena Milicevic, Zhou, Xiaoyun, Williamson, David J., Sawiak, Stephen, and Aigbirhio, Franklin I.

Subjects

*RADIOACTIVE tracers, *PROTEIN synthesis, *POSITRON emission tomography, *LABORATORY rats, *PUROMYCIN, *CYCLOHEXIMIDE

Abstract

From a series of fluorinated analogues of puromycin, we recently identified [18F]fluoroethylpuromycin (FEPURO) as a potential candidate for imaging the rate of protein synthesis in vivo. Herein, we describe the automation of the radiosynthesis, and evaluation of [18F]FEPURO in vivo. [18F]FEPURO was radiosynthesised in an automated module. PET imaging was conducted in Wistar rats under control and blocking conditions using the protein synthesis inhibitor cycloheximide. Biodistribution and metabolite studies at 30, 60 and 120 min were conducted in healthy rats. Automation of the radiosynthesis resulted in reduction of the synthesis time by half from the manual method. A steady increase in the SUV was observed in the time-activity curves for the whole brain as expected for a protein synthesis marker. However, rapid in vivo metabolism of [18F]FEPURO within 15 min in plasma as well as the brain (4 % of parent 30 min p.i.) indicated formation of the [18F]FET radio-metabolite in >90 % thus suggesting that observed increase in the brain uptake was due to the radiometabolite. [18F]FEPURO is not a suitable PET radiotracer for imaging protein synthesis rates in brain in vivo due to its rapid metabolism. Further structural modifications to prevent in vivo metabolism are underway. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2022

45. Diacidic Motifs in the Carboxyl Terminus Are Required for ER Exit and Translocation to the Plasma Membrane of NKCC2.

Author

Bakhos-Douaihy, Dalal, Seaayfan, Elie, Frachon, Nadia, Demaretz, Sylvie, Kömhoff, Martin, and Laghmani, Kamel

Subjects

*CELL membranes, *PROTEIN-protein interactions, *SEQUENCE analysis, *CYCLOHEXIMIDE, *KIDNEY diseases

Abstract

Mutations in the apical Na-K-2Cl co-transporter, NKCC2, cause type I Bartter syndrome (BS1), a life-threatening kidney disease. We have previously demonstrated that the BS1 variant Y998X, which deprives NKCC2 from its highly conserved dileucine-like motifs, compromises co-transporter surface delivery through ER retention mechanisms. However, whether these hydrophobic motifs are sufficient for anterograde trafficking of NKCC2 remains to be determined. Interestingly, sequence analysis of NKCC2 C-terminus revealed the presence of consensus di-acidic (D/E-X-D/E) motifs, 949EEE951 and 1019DAELE1023, located upstream and downstream of BS1 mutation Y998X, respectively. Di-acidic codes are involved in ER export of proteins through interaction with COPII budding machinery. Importantly, whereas mutating 949EEE951 motif to 949AEA951 had no effect on NKCC2 processing, mutating 1019DAE1021 to 1019AAA1021 heavily impaired complex-glycosylation and cell surface expression of the cotransporter in HEK293 and OKP cells. Most importantly, triple mutation of D, E and E residues of 1019DAELE1023 to 1019AAALA1023 almost completely abolished NKCC2 complex-glycosylation, suggesting that this mutant failed to exit the ER. Cycloheximide chase analysis demonstrated that the absence of the terminally glycosylated form of 1019AAALA1023 was caused by defects in NKCC2 maturation. Accordingly, co-immunolocalization experiments revealed that 1019AAALA1023 was trapped in the ER. Finally, overexpression of a dominant negative mutant of Sar1-GTPase abolished NKCC2 maturation and cell surface expression, clearly indicating that NKCC2 export from the ER is COPII-dependent. Hence, our data indicate that in addition to the di-leucine like motifs, NKCC2 uses di-acidic exit codes for export from the ER through the COPII-dependent pathway. We propose that any naturally occurring mutation of NKCC2 interfering with this pathway could form the molecular basis of BS1. [ABSTRACT FROM AUTHOR]

Published

2022

46. The Pathogenic Mechanism of the ATP2C1 p.Ala109_Gln120del Mutation in Hailey–Hailey Disease.

Author

Li, Peiyao, Qi, Jialin, Zhou, Baishun, Ding, Ting, Long, Juan, and Xiao, Heng

Subjects

CELL death, CHINESE people, VECTOR control, CELL proliferation, CYCLOHEXIMIDE, ADENOSINE triphosphatase

Abstract

Background: Hailey–Hailey disease (HHD) is an autosomal dominant cutaneous disorder that manifests as repeated blisters and erosions on flexural or intertriginous skin areas. The calcium-transporting ATPase type 2C member 1 gene (ATP2C1) encodes the secretory pathway Ca2+/Mn2+-ATPase 1 (SPCA1), whose deficiency is responsible for HHD. An ATP2C1 splice-site mutation (c.325-2A>G, p.Ala109_Gln120del) was previously identified in a Han Chinese family with HHD. Methods: In this study, the identified ATP2C1 splice-site mutation (c.325-2A>G, p.Ala109_Gln120del) was investigated in transfected human embryonic kidney 293 cells to analyze its pathogenic mechanism in HHD patients by using cycloheximide chase assay, CCK8 assay and in silico modeling of SPCA1 mutant. Results: Cycloheximide chase assay showed that the degradation rate of the SPCA1 mutant was not obviously faster than that of the normal SPCA1. CCK8 assay showed that cell proliferation rates in the wild-type, A109_Q120del, and empty vector control groups all decreased in the gradient Mn2+ solutions in a dose-dependent manner. The cell proliferation rate in the wild-type was lower than that in the A109_Q120del and empty vector control (both P < 0.01), indicating overexpression of normal SPCA1 may rather induce Golgi stress, and even cell death. The cell proliferation rate in the A109_Q120del was lower than that in the empty vector control (P < 0.01), indicating that overexpression of the mutated SPCA1 may decrease its detoxification capability. Three-dimensional (3D) structure model of SPCA1 built by SWISS-MODEL and PyMOL showed that absence of the 12 amino acids from p.Ala109 to p.Gln120 in the SPCA1 mutant can cause obviously shortened transmembrane 2, which may affect correct localization of SPCA1 on the Golgi. Conclusion: These results demonstrate that the ATP2C1 mutation (c.325-2A>G, p.Ala109_Gln120del) may cause impaired SPCA1 capability to detoxify Mn2+ and abnormal SPCA1 structure, which reveals a new side for the pathogenesis of HHD. [ABSTRACT FROM AUTHOR]

Published

2022

47. Novel Synergistic Anti-Enteroviral Drug Combinations.

Author

Ianevski, Aleksandr, Zusinaite, Eva, Tenson, Tanel, Oksenych, Valentyn, Wang, Wei, Afset, Jan Egil, Bjørås, Magnar, and Kainov, Denis E.

Subjects

*ENTEROVIRUS diseases, *ANTIVIRAL agents, *EPITHELIAL cells, *DRUGS, *VEMURAFENIB, *CYCLOHEXIMIDE

Abstract

Background: Enterovirus infections affect people around the world, causing a range of illnesses, from mild fevers to severe, potentially fatal conditions. There are no approved treatments for enterovirus infections. Methods: We have tested our library of broad-spectrum antiviral agents (BSAs) against echovirus 1 (EV1) in human adenocarcinoma alveolar basal epithelial A549 cells. We also tested combinations of the most active compounds against EV1 in A549 and human immortalized retinal pigment epithelium RPE cells. Results: We confirmed anti-enteroviral activities of pleconaril, rupintrivir, cycloheximide, vemurafenib, remdesivir, emetine, and anisomycin and identified novel synergistic rupintrivir–vemurafenib, vemurafenib–pleconaril and rupintrivir–pleconaril combinations against EV1 infection. Conclusions: Because rupintrivir, vemurafenib, and pleconaril require lower concentrations to inhibit enterovirus replication in vitro when combined, their cocktails may have fewer side effects in vivo and, therefore, should be further explored in preclinical and clinical trials against EV1 and other enterovirus infections. [ABSTRACT FROM AUTHOR]

Published

2022

48. Efflux Pumps and Multidrug-Resistance in Pyricularia oryzae   Triticum Lineage.

Author

Vicentini, Samara Nunes Campos, Moreira, Silvino Intra, da Silva, Abimael Gomes, de Oliveira, Tamiris Yoshie Kiyama, Silva, Tatiane Carla, Assis Junior, Fabio Gomes, Krug, Loane Dantas, de Paiva Custódio, Adriano Augusto, Leite Júnior, Rui Pereira, Teodoro, Paulo Eduardo, Fraaije, Bart, and Ceresini, Paulo Cezar

Subjects

*PYRICULARIA oryzae, *MULTIDRUG resistance, *WHEAT, *FUNGICIDES, *FUNGICIDE resistance, *PROMOTERS (Genetics), *CYCLOHEXIMIDE

Abstract

Widespread resistance to QoIs, DMI and SDHIs fungicides has been reported for Brazilian populations of the wheat blast pathogen Pyricularia oryzae Triticum lineage (PoTl). A pre-existing resistance mechanism not associated with target site mutations has been indicated for resistance to DMIs and SDHIs, with strong indication that PoTl has multidrugresistance (MDR). Therefore, the main objective of this study was to test the hypothesis that resistance to DMI and SDHI fungicides detected in PoTl was due to efflux pump mediated MDR mechanism(s) by characterizing the sensitivity to antifungal efflux pump substrates. Four antifungal substrates were tested: tolnaftate (TOL), cycloheximide (CHX), rhodamine 6G (RH6G) and triphenyltin chloride (TPCL). TPCL and RH6G were considered the most relevant indicators for enhanced MDR activity. Among the 16 PoTl isolates tested, 9 were insensitive to TPCL, 1 to TOL, 16 to RH6G and 1 to CHX. The PoTl isolates were grouped into four distinct multidrug resistance phenotypes (MDRPs) based on resistance to combinations of fungicides and antifungal efflux pump substrates. Insensitivity to TPCL, RH6G and or TOL correlated well with DMI insensitivity, but MDR was not associated with SDHI resistance. The identification of multiple MDRP phenotypes associated with DMI resistance in our study warrants further research aimed at revealing the exact mechanisms of multidrug resistance in the wheat blast pathogen, including efflux pumps overexpression via transcriptomic analyses of differentially expressed genes; identification and discovery of mutations associated with changes in promoter regions or transcription factors of efflux transporters associated with multidrug resistance. [ABSTRACT FROM AUTHOR]

Published

2022

49. High-resolution reconstruction of a C. elegans ribosome sheds light on evolutionary dynamics and tissue specificity.

Author

Sehgal E, Wohlenberg C, Soukup EM, Viscardi MJ, Serrão VHB, and Arribere JA

Subjects

Animals, Organ Specificity, Caenorhabditis elegans Proteins genetics, Caenorhabditis elegans Proteins metabolism, Caenorhabditis elegans Proteins chemistry, Models, Molecular, Evolution, Molecular, Cycloheximide pharmacology, Caenorhabditis elegans genetics, Caenorhabditis elegans metabolism, Ribosomes metabolism, Ribosomes genetics, Ribosomes ultrastructure, Cryoelectron Microscopy, Ribosomal Proteins genetics, Ribosomal Proteins metabolism, Ribosomal Proteins chemistry

Abstract

Caenorhabditis elegans is an important model organism for human health and disease, with foundational contributions to the understanding of gene expression and tissue patterning in animals. An invaluable tool in modern gene expression research is the presence of a high-resolution ribosome structure, though no such structure exists for C. elegans Here, we present a high-resolution single-particle cryogenic electron microscopy (cryo-EM) reconstruction and molecular model of a C. elegans ribosome, revealing a significantly streamlined animal ribosome. Many facets of ribosome structure are conserved in C. elegans , including overall ribosomal architecture and the mechanism of cycloheximide, whereas other facets, such as expansion segments and eL28, are rapidly evolving. We identify uL5 and uL23 as two instances of tissue-specific ribosomal protein paralog expression conserved in Caenorhabditis , suggesting that C. elegans ribosomes vary across tissues. The C. elegans ribosome structure will provide a basis for future structural, biochemical, and genetic studies of translation in this important animal system., (© 2024 Sehgal et al.; Published by Cold Spring Harbor Laboratory Press for the RNA Society.)

Published

2024

50. The ribosome inhibitor chloramphenicol induces motility deficits in human spermatozoa: A proteomic approach identifies potentially involved proteins

Author

Marie Bisconti, Baptiste Leroy, Meurig T. Gallagher, Coralie Senet, Baptiste Martinet, Vanessa Arcolia, Ruddy Wattiez, Jackson C. Kirkman-Brown, Jean-François Simon, and Elise Hennebert

Subjects

human spermatozoa, capacitation, ribosome, cycloheximide, choramphenicol, sperm parameters, Biology (General), QH301-705.5

Abstract

Mature spermatozoa are almost completely devoid of cytoplasm; as such it has long been believed that they do not contain ribosomes and are therefore not capable of synthesising proteins. However, since the 1950s, various studies have shown translational activity within spermatozoa, particularly during their in vitro capacitation. But the type of ribosomes involved (cytoplasmic or mitochondrial) is still debated. Here, we investigate the presence and activity of the two types of ribosomes in mature human spermatozoa. By targeting ribosomal RNAs and proteins, we show that both types of ribosomes are localized in the midpiece as well as in the neck and the base of the head of the spermatozoa. We assessed the impact of cycloheximide (CHX) and chloramphenicol (CP), inhibitors of cytoplasmic and mitochondrial ribosomes, respectively, on different sperm parameters. Neither CHX, nor CP impacted sperm vitality, mitochondrial activity (measured through the ATP content), or capacitation (measured through the content in phosphotyrosines). However, increasing CP concentrations induced a decrease in total and progressive motilities as well as on some kinematic parameters while no effect was observed with CHX. A quantitative proteomic analysis was performed by mass spectrometry in SWATH mode to compare the proteomes of spermatozoa capacitated in the absence or presence of the two ribosome inhibitors. Among the ∼700 proteins identified in the different tested conditions, 3, 3 and 25 proteins presented a modified abundance in the presence of 1 and 2 mg/ml of CHX, and 1 mg/ml of CP, respectively. The observed abundance variations of some CP-down regulated proteins were validated using Multiple-Reaction Monitoring (MRM). Taken together, our results are in favor of an activity of mitochondrial ribosomes. Their inhibition by CP results in a decrease in the abundance of several proteins, at least FUNDC2 and QRICH2, and consequently induces sperm motility deficits.

Published

2022