Your search keyword '"Drug resistance"' showing total 3,656 results

1. Organo-ptii complexes for potent photodynamic inactivation of multi-drug resistant bacteria and the influence of configuration

Author

Chong, Hui, Liu, Xuanwei, Fang, Siyu, Yang, Xiaofei, Zhang, Yuefei, Wang, Tianyi, Liu, Lin, Kan, Yinshi, Zhao, Yueqi, Fan, Hongying, Zhang, Jingqi, Wang, Xiaoyu, Yao, Hang, Yang, Yi, Gao, Yijian, Zhao, Qi, Li, Shengliang, Plymoth, Martin, Xi, Juqun, Zhang, Yu, Wang, Chengyin, Pang, Huan, Chong, Hui, Liu, Xuanwei, Fang, Siyu, Yang, Xiaofei, Zhang, Yuefei, Wang, Tianyi, Liu, Lin, Kan, Yinshi, Zhao, Yueqi, Fan, Hongying, Zhang, Jingqi, Wang, Xiaoyu, Yao, Hang, Yang, Yi, Gao, Yijian, Zhao, Qi, Li, Shengliang, Plymoth, Martin, Xi, Juqun, Zhang, Yu, Wang, Chengyin, and Pang, Huan

Abstract

PtII based organometallic photosensitizers (PSs) have emerged as novel potent photodynamic inactivation (PDI) reagents through their enhanced intersystem crossing (ISC) processes. Currently, few PtII PSs have been investigated as antibacterial materials, with relatively poor performances reported and with structure-activity relationships not well described. Herein, a pair of configurational isomers are reported of Bis-BODIPY (4,4-difluoro-boradizaindacene) embedded PtII PSs. The cis-isomer (cis-BBP) displayed enhanced 1O2 generation and better bacterial membrane anchoring capability as compared to the trans-isomer (trans-BBP). The effective PDI concentrations (efficiency > 99.9%) for cis-BBP in Acinetobacter baumannii (multi-drug resistant (MDR)) and Staphylococcus aureus are 400 nM (12 J cm−2) and 100 nM (18 J cm−2), respectively; corresponding concentrations and light doses for trans-BBP in the two bacteria are 2.50 µM (30 J cm−2) and 1.50 µM (18 J cm−2), respectively. The 50% and 90% minimum inhibitory concentration (MIC50 and MIC90) ratio of trans-BBP to cis-BBP is 22.22 and 24.02 in A. baumannii (MDR); 21.29 and 22.36 in methicillin resistant S. aureus (MRSA), respectively. Furthermore, cis-BBP displays superior in vivo antibacterial performance, with acceptable dark and photoinduced cytotoxicity. These results demonstrate cis-BBP is a robust light-assisted antibacterial reagent at sub-micromolecular concentrations. More importantly, configuration of PtII PSs should be an important issue to be considered in further PDI reagents design.

Published

2024

2. Purification and characterization of Cdr1, the drug-efflux pump conferring azole resistance in Candida species

Author

Pata, Jorgaq, Moreno, Alexis, Wiseman, Benjamin, Magnard, Sandrine, Lehlali, Idriss, Dujardin, Marie, Banerjee, Atanu, Högbom, Martin, Boumendiel, Ahccne, Chaptal, Vincent, Prasad, Rajendra, Falson, Pierre, Pata, Jorgaq, Moreno, Alexis, Wiseman, Benjamin, Magnard, Sandrine, Lehlali, Idriss, Dujardin, Marie, Banerjee, Atanu, Högbom, Martin, Boumendiel, Ahccne, Chaptal, Vincent, Prasad, Rajendra, and Falson, Pierre

Abstract

Candida albicans and C. glabrata express exporters of the ATP -binding cassette (ABC) superfamily and address them to their plasma membrane to expel azole antifungals, which cancels out their action and allows the yeast to become multidrug resistant (MDR). In a way to understand this mechanism of defense, we describe the purification and characterization of Cdr1, the membrane ABC exporter mainly responsible for such phenotype in both species. Cdr1 proteins were functionally expressed in the baker yeast, tagged at their C -terminal end with either a His -tag for the glabrata version, cgCdr1-His, or a green fluorescent protein (GFP) preceded by a proteolytic cleavage site for the albicans version, caCdr1-P-GFP. A membrane Cdr1-enriched fraction was then prepared to assay several detergents and stabilizers, probing their level of extraction and the ATPase activity of the proteins as a functional marker. Immobilized metal -affinity and size -exclusion chromatographies (IMAC, SEC) were then carried out to isolate homogenous samples. Overall, our data show that although topologically and phylogenetically close, both proteins display quite distinct behaviors during the extraction and purification steps, and qualify cgCdr1 as a good candidate to characterize this type of proteins for developing future inhibitors of their azole antifungal efflux activity.

Published

2024

3. Organo-ptii complexes for potent photodynamic inactivation of multi-drug resistant bacteria and the influence of configuration

Author

Chong, Hui, Liu, Xuanwei, Fang, Siyu, Yang, Xiaofei, Zhang, Yuefei, Wang, Tianyi, Liu, Lin, Kan, Yinshi, Zhao, Yueqi, Fan, Hongying, Zhang, Jingqi, Wang, Xiaoyu, Yao, Hang, Yang, Yi, Gao, Yijian, Zhao, Qi, Li, Shengliang, Plymoth, Martin, Xi, Juqun, Zhang, Yu, Wang, Chengyin, Pang, Huan, Chong, Hui, Liu, Xuanwei, Fang, Siyu, Yang, Xiaofei, Zhang, Yuefei, Wang, Tianyi, Liu, Lin, Kan, Yinshi, Zhao, Yueqi, Fan, Hongying, Zhang, Jingqi, Wang, Xiaoyu, Yao, Hang, Yang, Yi, Gao, Yijian, Zhao, Qi, Li, Shengliang, Plymoth, Martin, Xi, Juqun, Zhang, Yu, Wang, Chengyin, and Pang, Huan

Abstract

PtII based organometallic photosensitizers (PSs) have emerged as novel potent photodynamic inactivation (PDI) reagents through their enhanced intersystem crossing (ISC) processes. Currently, few PtII PSs have been investigated as antibacterial materials, with relatively poor performances reported and with structure-activity relationships not well described. Herein, a pair of configurational isomers are reported of Bis-BODIPY (4,4-difluoro-boradizaindacene) embedded PtII PSs. The cis-isomer (cis-BBP) displayed enhanced 1O2 generation and better bacterial membrane anchoring capability as compared to the trans-isomer (trans-BBP). The effective PDI concentrations (efficiency > 99.9%) for cis-BBP in Acinetobacter baumannii (multi-drug resistant (MDR)) and Staphylococcus aureus are 400 nM (12 J cm−2) and 100 nM (18 J cm−2), respectively; corresponding concentrations and light doses for trans-BBP in the two bacteria are 2.50 µM (30 J cm−2) and 1.50 µM (18 J cm−2), respectively. The 50% and 90% minimum inhibitory concentration (MIC50 and MIC90) ratio of trans-BBP to cis-BBP is 22.22 and 24.02 in A. baumannii (MDR); 21.29 and 22.36 in methicillin resistant S. aureus (MRSA), respectively. Furthermore, cis-BBP displays superior in vivo antibacterial performance, with acceptable dark and photoinduced cytotoxicity. These results demonstrate cis-BBP is a robust light-assisted antibacterial reagent at sub-micromolecular concentrations. More importantly, configuration of PtII PSs should be an important issue to be considered in further PDI reagents design.

Published

2024

4. Temporal association of antimicrobial use in livestock with antimicrobial resistance in non-typhoid Salmonella human infections in the Netherlands, 2008–2019

Author

Chanamé Pinedo, Linda E., Meijs, Anouk P., Deng, Huifang, de Greeff, Sabine C., van Duijkeren, Engeline, Dierikx, Cindy M., Veldman, Kees T., Sanders, Pim, van den Beld, Maaike J.C., Wullings, Bart, Franz, Eelco, Pijnacker, Roan, Mughini-Gras, Lapo, Chanamé Pinedo, Linda E., Meijs, Anouk P., Deng, Huifang, de Greeff, Sabine C., van Duijkeren, Engeline, Dierikx, Cindy M., Veldman, Kees T., Sanders, Pim, van den Beld, Maaike J.C., Wullings, Bart, Franz, Eelco, Pijnacker, Roan, and Mughini-Gras, Lapo

Abstract

Background: Antimicrobial use (AMU) in livestock contributes to antimicrobial resistance (AMR) among zoonotic pathogens, such as non-typhoid Salmonella (NTS). Since 2009, the Netherlands has made substantial efforts to reduce AMU in livestock. Objectives: To assess the association between AMU in livestock and AMR in NTS human isolates. Additionally, associations between AMU in broilers/pigs and AMR in NTS broiler/pig isolates, and between AMR in broilers/pigs and in human NTS isolates were assessed. The focus was on Salmonella Enteritidis (SE) and Salmonella Typhimurium including its monophasic variant (ST/STM). Methods: A national population registry-based study was conducted in the Netherlands from 2008 to 2019. Multivariable logistic regression models were used to assess the associations between livestock AMU and NTS resistance proportion in humans and broilers/pigs, overall as well as per class-specific antimicrobials. Correlation analysis was performed to relate AMR proportions between human and broiler/pig NTS isolates. Results: For SE, only a positive association between penicillins use in broilers and resistance to ampicillin among human isolates was significant. For ST/STM, most associations between AMU in livestock and AMR among human isolates were significantly positive, overall and per class-specific antimicrobials, namely for penicillins-ampicillin, tetracyclines-tetracycline and sulfonamides/trimethoprim-sulfamethoxazole/trimethoprim. Significantly positive associations between AMU in broilers/pigs and AMR in broiler/pig ST/STM isolates were also observed, but not between broiler/pig and human AMR levels. Conclusions: Significant associations were generally found between livestock AMU and AMR in human and broiler/pig ST/STM isolates. However, confounding factors, such as imported meat and travel are of concern. To fully comprehend the impact of livestock AMU on resistance in human NTS isolates, it is imperative to enhance AMR surveillance of NTS.

Published

2024

5. Metagenomic assembly is the main bottleneck in the identification of mobile genetic elements

Author

Kerkvliet, Jesse J., Bossers, Alex, Kers, Jannigje G., Meneses, Rodrigo, Willems, Rob J L, Schürch, Anita C., Kerkvliet, Jesse J., Bossers, Alex, Kers, Jannigje G., Meneses, Rodrigo, Willems, Rob J L, and Schürch, Anita C.

Abstract

Antimicrobial resistance genes (ARG) are commonly found on acquired mobile genetic elements (MGEs) such as plasmids or transposons. Understanding the spread of resistance genes associated with mobile elements (mARGs) across different hosts and environments requires linking ARGs to the existing mobile reservoir within bacterial communities. However, reconstructing mARGs in metagenomic data from diverse ecosystems poses computational challenges, including genome fragment reconstruction (assembly), high-throughput annotation of MGEs, and identification of their association with ARGs. Recently, several bioinformatics tools have been developed to identify assembled fragments of plasmids, phages, and insertion sequence (IS) elements in metagenomic data. These methods can help in understanding the dissemination of mARGs. To streamline the process of identifying mARGs in multiple samples, we combined these tools in an automated high-throughput open-source pipeline, MetaMobilePicker, that identifies ARGs associated with plasmids, IS elements and phages, starting from short metagenomic sequencing reads. This pipeline was used to identify these three elements on a simplified simulated metagenome dataset, comprising whole genome sequences from seven clinically relevant bacterial species containing 55 ARGs, nine plasmids and five phages. The results demonstrated moderate precision for the identification of plasmids (0.57) and phages (0.71), and moderate sensitivity of identification of IS elements (0.58) and ARGs (0.70). In this study, we aim to assess the main causes of this moderate performance of the MGE prediction tools in a comprehensive manner. We conducted a systematic benchmark, considering metagenomic read coverage, contig length cutoffs and investigating the performance of the classification algorithms. Our analysis revealed that the metagenomic assembly process is the primary bottleneck when linking ARGs to identified MGEs in short-read metagenomics sequencing expe

Published

2024

6. El enfoque Una Salud y la resistencia a los antimicrobianos: Implementación en el Perú

Author

Yagui Moscoso, Martín and Yagui Moscoso, Martín

Abstract

Antimicrobial Resistance (AMR) is a public health problem of global scope, whose projections if its spread is not contained indicate that by the year 2050 it would become the leading cause of death worldwide with a serious impact on the world economy. This situation has determined the application of the "One Health" approach for its containment. The approach recognizes that the health of people, animals, plants and the environment are closely related and interdependent. Since 2015, the WHO, in coordination with other organizations, approved the Global Action Plan to face AMR, this determined that the Member States elaborate and implement their national plans. Peru began the approach to contain AMR applying the "One Health" approach since 2017. Some progress has been made in the implementation of the National Plan but also the challenges and actions pending to be achieved, La Resistencia a los Antimicrobianos (RAM) es un problema de salud pública de alcance global. De no lograrse contener su propagación, para el año 2050 se convertiría en la primera causa de muerte a nivel mundial, con un serio impacto en la economía mundial. Esta situación ha determinado la aplicación del enfoque «Una Salud» para su contención. Este enfoque reconoce que la salud de las personas, los animales, las plantas y el medio ambiente están estrechamente relacionados y son interdependientes. Desde el año 2015, la Organización Mundial de la Salud, en coordinación con otras organizaciones aprobaron el Plan de Acción Mundial para enfrentar la RAM, esto determinó que los estados miembros elaboraran e implementaran sus planes nacionales. El Perú inició el abordaje para la contención de la RAM aplicando el enfoque «Una Salud» desde el año 2017. Se registran algunos avances en la implementación de Plan nacional pero también los retos y acciones pendientes de alcanzar

Published

2024

7. Molecular markers of artemisinin resistance during falciparum malaria elimination in Eastern Myanmar.

Author

Delmas, Gilles, Delmas, Gilles, Watthanaworawit, Wanitda, McLean, Alistair, Arya, Ann, Reyes, Ann, Li, Xue, Miotto, Olivo, Soe, Kyaw, Ashley, Elizabeth, Dondorp, Arjen, White, Nicholas, Day, Nicholas, Anderson, Tim, Imwong, Mallika, Nosten, Francois, Smithuis, Frank, Thu, Aung, Phyo, Aung, Pateekhum, Chanapat, Rae, Jade, Landier, Jordi, Parker, Daniel, Delmas, Gilles, Delmas, Gilles, Watthanaworawit, Wanitda, McLean, Alistair, Arya, Ann, Reyes, Ann, Li, Xue, Miotto, Olivo, Soe, Kyaw, Ashley, Elizabeth, Dondorp, Arjen, White, Nicholas, Day, Nicholas, Anderson, Tim, Imwong, Mallika, Nosten, Francois, Smithuis, Frank, Thu, Aung, Phyo, Aung, Pateekhum, Chanapat, Rae, Jade, Landier, Jordi, and Parker, Daniel

Abstract

BACKGROUND: Artemisinin resistance in Plasmodium falciparum threatens global malaria elimination efforts. To contain and then eliminate artemisinin resistance in Eastern Myanmar a network of community-based malaria posts was instituted and targeted mass drug administration (MDA) with dihydroartemisinin-piperaquine (three rounds at monthly intervals) was conducted. The prevalence of artemisinin resistance during the elimination campaign (2013-2019) was characterized. METHODS: Throughout the six-year campaign Plasmodium falciparum positive blood samples from symptomatic patients and from cross-sectional surveys were genotyped for mutations in kelch-13-a molecular marker of artemisinin resistance. RESULT: The program resulted in near elimination of falciparum malaria. Of 5162 P. falciparum positive blood samples genotyped, 3281 (63.6%) had K13 mutations. The prevalence of K13 mutations was 73.9% in 2013 and 64.4% in 2019. Overall, there was a small but significant decline in the proportion of K13 mutants (p < 0.001). In the MDA villages there was no significant change in the K13 proportions before and after MDA. The distribution of different K13 mutations changed substantially; F446I and P441L mutations increased in both MDA and non-MDA villages, while most other K13 mutations decreased. The proportion of C580Y mutations fell from 9.2% (43/467) before MDA to 2.3% (19/813) after MDA (p < 0.001). Similar changes occurred in the 487 villages where MDA was not conducted. CONCLUSION: The malaria elimination program in Kayin state, eastern Myanmar, led to a substantial reduction in falciparum malaria. Despite the intense use of artemisinin-based combination therapies, both in treatment and MDA, this did not select for artemisinin resistance.

Published

2024

8. Cancer-stromal cell interactions in breast cancer brain metastases induce glycocalyx-mediated resistance to HER2-targeting therapies.

Author

Goyette, Marie-Anne, Goyette, Marie-Anne, Stevens, Laura, DePinho, Carolyn, Seehawer, Marco, Nishida, Jun, Li, Zheqi, Wilde, Callahan, Li, Rong, Qiu, Xintao, Pyke, Alanna, Zhao, Stephanie, Lim, Klothilda, Tender, Gabrielle, Northey, Jason, Riley, Nicholas, Long, Henry, Bertozzi, Carolyn, Polyak, Kornelia, Weaver, Valerie, Goyette, Marie-Anne, Goyette, Marie-Anne, Stevens, Laura, DePinho, Carolyn, Seehawer, Marco, Nishida, Jun, Li, Zheqi, Wilde, Callahan, Li, Rong, Qiu, Xintao, Pyke, Alanna, Zhao, Stephanie, Lim, Klothilda, Tender, Gabrielle, Northey, Jason, Riley, Nicholas, Long, Henry, Bertozzi, Carolyn, Polyak, Kornelia, and Weaver, Valerie

Abstract

Brain metastatic breast cancer is particularly lethal largely due to therapeutic resistance. Almost half of the patients with metastatic HER2-positive breast cancer develop brain metastases, representing a major clinical challenge. We previously described that cancer-associated fibroblasts are an important source of resistance in primary tumors. Here, we report that breast cancer brain metastasis stromal cell interactions in 3D cocultures induce therapeutic resistance to HER2-targeting agents, particularly to the small molecule inhibitor of HER2/EGFR neratinib. We investigated the underlying mechanisms using a synthetic Notch reporter system enabling the sorting of cancer cells that directly interact with stromal cells. We identified mucins and bulky glycoprotein synthesis as top-up-regulated genes and pathways by comparing the gene expression and chromatin profiles of stroma-contact and no-contact cancer cells before and after neratinib treatment. Glycoprotein gene signatures were also enriched in human brain metastases compared to primary tumors. We confirmed increased glycocalyx surrounding cocultures by immunofluorescence and showed that mucinase treatment increased sensitivity to neratinib by enabling a more efficient inhibition of EGFR/HER2 signaling in cancer cells. Overexpression of truncated MUC1 lacking the intracellular domain as a model of increased glycocalyx-induced resistance to neratinib both in cell culture and in experimental brain metastases in immunodeficient mice. Our results highlight the importance of glycoproteins as a resistance mechanism to HER2-targeting therapies in breast cancer brain metastases.

Published

2024

9. Dose modification dynamics of ponatinib in patients with chronic-phase chronic myeloid leukemia (CP-CML) from the PACE and OPTIC trials.

Author

Jabbour, Elias, Jabbour, Elias, Apperley, Jane, Cortes, Jorge, Rea, Delphine, Deininger, Michael, Abruzzese, Elisabetta, Chuah, Charles, DeAngelo, Daniel, Hochhaus, Andreas, Lipton, Jeffrey, Mauro, Michael, Nicolini, Franck, Pinilla-Ibarz, Javier, Rosti, Gianantonio, Rousselot, Philippe, Talpaz, Moshe, Vorog, Alexander, Ren, Xiaowei, Kantarjian, Hagop, Shah, Neil Pravin, Jabbour, Elias, Jabbour, Elias, Apperley, Jane, Cortes, Jorge, Rea, Delphine, Deininger, Michael, Abruzzese, Elisabetta, Chuah, Charles, DeAngelo, Daniel, Hochhaus, Andreas, Lipton, Jeffrey, Mauro, Michael, Nicolini, Franck, Pinilla-Ibarz, Javier, Rosti, Gianantonio, Rousselot, Philippe, Talpaz, Moshe, Vorog, Alexander, Ren, Xiaowei, Kantarjian, Hagop, and Shah, Neil Pravin

Abstract

Ponatinib, the only approved all known-BCR::ABL1 inhibitor, is a third-generation tyrosine-kinase inhibitor (TKI) designed to inhibit BCR::ABL1 with or without any single resistance mutation, including T315I, and induced robust and durable responses at 45 mg/day in patients with CP-CML resistant to second-generation TKIs in the PACE trial. However, cardiovascular toxicities, including arterial occlusive events (AOEs), have emerged as treatment-related AEs within this class of TKIs. The OPTIC trial evaluated the efficacy and safety of ponatinib using a novel, response-based, dose-reduction strategy in patients with CP-CML whose disease is resistant to ≥2 TKIs or who harbor T315I. To assess the dose-response relationship and the effect on the safety of ponatinib, we examined the outcomes of patients with CP-CML enrolled in PACE and OPTIC who received 45 mg/day of ponatinib. A propensity score analysis was used to evaluate AOEs across both trials. Survival rates and median time to achieve ≤1% BCR::ABL1IS in OPTIC were similar or better than in PACE. The outcomes of patients with T315I mutations were robust in both trials. Patients in OPTIC had a lower exposure-adjusted incidence of AOEs compared with those in PACE. This analysis demonstrates that response-based dosing for ponatinib improves treatment tolerance and mitigates cardiovascular risk.

Published

2024

10. Prolonged mass azithromycin distributions and macrolide resistance determinants among preschool children in Niger: A sub-study of a cluster-randomized trial (MORDOR).

Author

Arzika, Ahmed, Arzika, Ahmed, Abdou, Amza, Maliki, Ramatou, Beido, Nassirou, Kadri, Boubacar, Harouna, Abdoul, Galo, Abdoul, Alio, Mankara, Lebas, Elodie, Oldenburg, Catherine, OBrien, Kieran, Chen, Cindi, Zhong, Lina, Zhou, Zhaoxia, Yan, Daisy, Hinterwirth, Armin, Doan, Thuy, Porco, Travis, Keenan, Jeremy, Lietman, Thomas, Arzika, Ahmed, Arzika, Ahmed, Abdou, Amza, Maliki, Ramatou, Beido, Nassirou, Kadri, Boubacar, Harouna, Abdoul, Galo, Abdoul, Alio, Mankara, Lebas, Elodie, Oldenburg, Catherine, OBrien, Kieran, Chen, Cindi, Zhong, Lina, Zhou, Zhaoxia, Yan, Daisy, Hinterwirth, Armin, Doan, Thuy, Porco, Travis, Keenan, Jeremy, and Lietman, Thomas

Abstract

BACKGROUND: Randomized controlled trials found that twice-yearly mass azithromycin administration (MDA) reduces childhood mortality, presumably by reducing infection burden. World Health Organization (WHO) issued conditional guidelines for mass azithromycin administration in high-mortality settings in sub-Saharan Africa given concerns for antibiotic resistance. While prolonged twice-yearly MDA has been shown to increase antibiotic resistance in small randomized controlled trials, the objective of this study was to determine if macrolide and non-macrolide resistance in the gut increases with the duration of azithromycin MDA in a larger setting. METHODS AND FINDINGS: The Macrolide Oraux pour Réduire les Décès avec un Oeil sur la Résistance (MORDOR) study was conducted in Niger from December 2014 to June 2020. It was a cluster-randomized trial of azithromycin (A) versus placebo (P) aimed at evaluating childhood mortality. This is a sub-study in the MORDOR trial to track changes in antibiotic resistance after prolonged azithromycin MDA. A total of 594 communities were eligible. Children 1 to 59 months in 163 randomly chosen communities were eligible to receive treatment and included in resistance monitoring. Participants, staff, and investigators were masked to treatment allocation. At the conclusion of MORDOR Phase I, by design, all communities received an additional year of twice-yearly azithromycin treatments (Phase II). Thus, at the conclusion of Phase II, the treatment history (1 letter per 6-month period) for the participating communities was either (PP-PP-AA) or (AA-AA-AA). In Phase III, participating communities were then re-randomized to receive either another 3 rounds of azithromycin or placebo, thus resulting in 4 treatment histories: Group 1 (AA-AA-AA-AA-A, N = 51), Group 2 (PP-PP-AA-AA-A, N = 40), Group 3 (AA-AA-AA-PP-P, N = 27), and Group 4 (PP-PP-AA-PP-P, N = 32). Rectal swabs from each child (N = 5,340) were obtained 6 months after the last treatment. Ea

Published

2024

11. Modeling the emergence of viral resistance for SARS-CoV-2 during treatment with an anti-spike monoclonal antibody

Author

Phan, Tin, Su, Shuo1, Phan, Tin, Zitzmann, Carolin, Chew, Kara W, Smith, Davey M, Daar, Eric S, Wohl, David A, Eron, Joseph J, Currier, Judith S, Hughes, Michael D, Choudhary, Manish C, Deo, Rinki, Li, Jonathan Z, Ribeiro, Ruy M, Ke, Ruian, Perelson, Alan S, Team, for the ACTIV-2 A5401 Study, Phan, Tin, Su, Shuo1, Phan, Tin, Zitzmann, Carolin, Chew, Kara W, Smith, Davey M, Daar, Eric S, Wohl, David A, Eron, Joseph J, Currier, Judith S, Hughes, Michael D, Choudhary, Manish C, Deo, Rinki, Li, Jonathan Z, Ribeiro, Ruy M, Ke, Ruian, Perelson, Alan S, and Team, for the ACTIV-2 A5401 Study

Abstract

To mitigate the loss of lives during the COVID-19 pandemic, emergency use authorization was given to several anti-SARS-CoV-2 monoclonal antibody (mAb) therapies for the treatment of mild-to-moderate COVID-19 in patients with a high risk of progressing to severe disease. Monoclonal antibodies used to treat SARS-CoV-2 target the spike protein of the virus and block its ability to enter and infect target cells. Monoclonal antibody therapy can thus accelerate the decline in viral load and lower hospitalization rates among high-risk patients with variants susceptible to mAb therapy. However, viral resistance has been observed, in some cases leading to a transient viral rebound that can be as large as 3-4 orders of magnitude. As mAbs represent a proven treatment choice for SARS-CoV-2 and other viral infections, evaluation of treatment-emergent mAb resistance can help uncover underlying pathobiology of SARS-CoV-2 infection and may also help in the development of the next generation of mAb therapies. Although resistance can be expected, the large rebounds observed are much more difficult to explain. We hypothesize replenishment of target cells is necessary to generate the high transient viral rebound. Thus, we formulated two models with different mechanisms for target cell replenishment (homeostatic proliferation and return from an innate immune response antiviral state) and fit them to data from persons with SARS-CoV-2 treated with a mAb. We showed that both models can explain the emergence of resistant virus associated with high transient viral rebounds. We found that variations in the target cell supply rate and adaptive immunity parameters have a strong impact on the magnitude or observability of the viral rebound associated with the emergence of resistant virus. Both variations in target cell supply rate and adaptive immunity parameters may explain why only some individuals develop observable transient resistant viral rebound. Our study highlights the conditions that c

Published

2024

12. Ceftriaxone resistance in Neisseria gonorrhoeae associated with the penA-60.001 allele in Hanoi, Viet Nam.

Author

Adamson, Paul C, Adamson, Paul C, Hieu, Vu N, Nhung, Pham H, Whiley, David M, Chau, Tran M, Adamson, Paul C, Adamson, Paul C, Hieu, Vu N, Nhung, Pham H, Whiley, David M, and Chau, Tran M

Published

2024

13. A phase 1 study of the irreversible FLT3 inhibitor FF-10101 in relapsed or refractory acute myeloid leukemia.

Author

Levis, Mark, Levis, Mark, Perl, Alexander, Schiller, Gary, Fathi, Amir, Roboz, Gail, Wang, Eunice, Altman, Jessica, Rajkhowa, Trivikram, Ando, Makoto, Suzuki, Takeaki, Subach, Ruth, Maier, Gary, Madden, Timothy, Johansen, Mary, Cheung, Kin, Kurman, Michael, Smith, Catherine, Levis, Mark, Levis, Mark, Perl, Alexander, Schiller, Gary, Fathi, Amir, Roboz, Gail, Wang, Eunice, Altman, Jessica, Rajkhowa, Trivikram, Ando, Makoto, Suzuki, Takeaki, Subach, Ruth, Maier, Gary, Madden, Timothy, Johansen, Mary, Cheung, Kin, Kurman, Michael, and Smith, Catherine

Abstract

FLT3 tyrosine kinase inhibitors (TKIs) have clinical efficacy for patients with FLT3-mutated AML (acute myeloid leukemia), but their impact is limited by resistance in the setting of monotherapy and by tolerability problems when used in combination therapies. FF-10101 is a novel compound that covalently binds to a cysteine residue near the active site of FLT3, irreversibly inhibiting receptor signaling. It is effective against most FLT3 activating mutations, and, unlike other inhibitors, is minimally vulnerable to resistance induced by FLT3 ligand. We conducted a phase 1 dose escalation study of oral FF-10101 in patients with relapsed and/or refractory AML, the majority of whom harbored FLT3-activating mutations and/or had prior exposure to FLT3 inhibitors. Fifty-four participants enrolled in cohorts receiving doses ranging from 10 to 225 mg per day and 50 to 100 mg twice daily (BID). The dose limiting toxicities were diarrhea and QT prolongation. Among 40 response-evaluable participants, the composite complete response rate was 10%, and the overall response rate (including partial responses) was 12.5%, including patients who had progressed on gilteritinib. Overall, 56% of participants had prior exposure to FLT3 inhibitors. The recommended phase 2 dose was 75 mg BID. FF-10101 potentially represents a next-generation advance in the management of FLT3-mutated AML. This trial was registered at www.ClinicalTrials.gov as #NCT03194685.

Published

2024

14. IRX4204 Induces Senescence and Cell Death in HER2-positive Breast Cancer and Synergizes with Anti-HER2 Therapy.

Author

Moyer, Cassandra, Moyer, Cassandra, Lanier, Amanda, Qian, Jing, Coleman, Darian, Hill, Jamal, Vuligonda, Vidyasagar, Sanders, Martin, Mazumdar, Abhijit, Brown, Powel, Moyer, Cassandra, Moyer, Cassandra, Lanier, Amanda, Qian, Jing, Coleman, Darian, Hill, Jamal, Vuligonda, Vidyasagar, Sanders, Martin, Mazumdar, Abhijit, and Brown, Powel

Abstract

PURPOSE: Rexinoids, agonists of nuclear retinoid X receptor (RXR), have been used for the treatment of cancers and are well tolerated in both animals and humans. However, the usefulness of rexinoids in treatment of breast cancer remains unknown. This study examines the efficacy of IRX4204, a highly specific rexinoid, in breast cancer cell lines and preclinical models to identify a biomarker for response and potential mechanism of action. EXPERIMENTAL DESIGN: IRX4204 effects on breast cancer cell growth and viability were determined using cell lines, syngeneic mouse models, and primary patient-derived xenograft (PDX) tumors. In vitro assays of cell cycle, apoptosis, senescence, and lipid metabolism were used to uncover a potential mechanism of action. Standard anti-HER2 therapies were screened in combination with IRX4204 on a panel of breast cancer cell lines to determine drug synergy. RESULTS: IRX4204 significantly inhibits the growth of HER2-positive breast cancer cell lines, including trastuzumab and lapatinib-resistant JIMT-1 and HCC1954. Treatment with IRX4204 reduced tumor growth rate in the MMTV-ErbB2 mouse and HER2-positive PDX model by 49% and 44%, respectively. Mechanistic studies revealed IRX4204 modulates lipid metabolism and induces senescence of HER2-positive cells. In addition, IRX4204 demonstrates additivity and synergy with HER2-targeted mAbs, tyrosine kinase inhibitors, and antibody-drug conjugates. CONCLUSIONS: These findings identify HER2 as a biomarker for IRX4204 treatment response and demonstrate a novel use of RXR agonists to synergize with current anti-HER2 therapies. Furthermore, our results suggest that RXR agonists can be useful for the treatment of anti-HER2 resistant and metastatic HER2-positive breast cancer.

Published

2024

15. In vitro evolution and whole genome analysis to study chemotherapy drug resistance in haploid human cells

Author

Jado, Juan Carlos, Jado, Juan Carlos, Dow, Michelle, Carolino, Krypton, Klie, Adam, Fonseca, Gregory J, Ideker, Trey, Carter, Hannah, Winzeler, Elizabeth A, Jado, Juan Carlos, Jado, Juan Carlos, Dow, Michelle, Carolino, Krypton, Klie, Adam, Fonseca, Gregory J, Ideker, Trey, Carter, Hannah, and Winzeler, Elizabeth A

Abstract

In vitro evolution and whole genome analysis has proven to be a powerful method for studying the mechanism of action of small molecules in many haploid microbes but has generally not been applied to human cell lines in part because their diploid state complicates the identification of variants that confer drug resistance. To determine if haploid human cells could be used in MOA studies, we evolved resistance to five different anticancer drugs (doxorubicin, gemcitabine, etoposide, topotecan, and paclitaxel) using a near-haploid cell line (HAP1) and then analyzed the genomes of the drug resistant clones, developing a bioinformatic pipeline that involved filtering for high frequency alleles predicted to change protein sequence, or alleles which appeared in the same gene for multiple independent selections with the same compound. Applying the filter to sequences from 28 drug resistant clones identified a set of 21 genes which was strongly enriched for known resistance genes or known drug targets (TOP1, TOP2A, DCK, WDR33, SLCO3A1). In addition, some lines carried structural variants that encompassed additional known resistance genes (ABCB1, WWOX and RRM1). Gene expression knockdown and knockout experiments of 10 validation targets showed a high degree of specificity and accuracy in our calls and demonstrates that the same drug resistance mechanisms found in diverse clinical samples can be evolved, discovered and studied in an isogenic background.

Published

2024

16. Association of leukemic molecular profile with efficacy of inotuzumab ozogamicin in adults with relapsed/refractory ALL.

Author

Zhao, Yaqi, Zhao, Yaqi, Laird, A, Roberts, Kathryn, Yafawi, Rolla, Kantarjian, Hagop, DeAngelo, Daniel, Stelljes, Matthias, Liedtke, Michaela, Stock, Wendy, Gökbuget, Nicola, OBrien, Susan, Jabbour, Elias, Cassaday, Ryan, Loyd, Melanie, Olsen, Scott, Neale, Geoffrey, Liu, Xueli, Vandendries, Erik, Advani, Anjali, Mullighan, Charles, Zhao, Yaqi, Zhao, Yaqi, Laird, A, Roberts, Kathryn, Yafawi, Rolla, Kantarjian, Hagop, DeAngelo, Daniel, Stelljes, Matthias, Liedtke, Michaela, Stock, Wendy, Gökbuget, Nicola, OBrien, Susan, Jabbour, Elias, Cassaday, Ryan, Loyd, Melanie, Olsen, Scott, Neale, Geoffrey, Liu, Xueli, Vandendries, Erik, Advani, Anjali, and Mullighan, Charles

Abstract

The phase 3 INO-VATE trial demonstrated higher rates of remission, measurable residual disease negativity, and improved overall survival for patients with relapsed/refractory (R/R) acute lymphoblastic leukemia (ALL) who received inotuzumab ozogamicin (InO) vs standard-of-care chemotherapy (SC). Here, we examined associations between genomic alterations and the efficacy of InO. Of 326 randomized patients, 91 (InO, n = 43; SC, n = 48) had samples evaluable for genomic analysis. The spectrum of gene fusions and other genomic alterations observed was comparable with prior studies of adult ALL. Responses to InO were observed in all leukemic subtypes, genomic alterations, and risk groups. Significantly higher rates of complete remission (CR)/CR with incomplete count recovery were observed with InO vs SC in patients with BCR::ABL1-like ALL (85.7% [6/7] vs 0% [0/5]; P = .0076), with TP53 alterations (100% [5/5] vs 12.5% [1/8]; P = .0047), and in the high-risk BCR::ABL1- (BCR::ABL1-like, low-hypodiploid, KMT2A-rearranged) group (83.3% [10/12] vs 10.5% [2/19]; P < .0001). This retrospective, exploratory analysis of the INO-VATE trial demonstrated potential for benefit with InO for patients with R/R ALL across leukemic subtypes, including BCR::ABL1-like ALL, and for those bearing diverse genomic alterations. Further confirmation of the efficacy of InO in patients with R/R ALL exhibiting the BCR::ABL1-like subtype or harboring TP53 alterations is warranted. This trial was registered at www.ClinicalTrials.gov as #NCT01564784.

Published

2024

17. WGS of intrauterine E. coli from cows with early postpartum uterine infection reveals a non-uterine specific genotype and virulence factors.

Author

Garzon, Adriana, Garzon, Adriana, Basbas, Carl, Schlesener, Cory, Silva-Del-Rio, Noelia, Karle, Betsy, Lima, Fabio, Weimer, Bart, Pereira, Richard, Garzon, Adriana, Garzon, Adriana, Basbas, Carl, Schlesener, Cory, Silva-Del-Rio, Noelia, Karle, Betsy, Lima, Fabio, Weimer, Bart, and Pereira, Richard

Abstract

Escherichia coli has been attributed to playing a major role in a cascade of events that affect the prevalence and severity of uterine disease in cattle. The objectives of this project were to (i) define the association between the prevalence of specific antimicrobial resistance and virulence factor genes in E. coli with the clinical status related to uterine infection, (ii) identify the genetic relationship between E. coli isolates from cows with diarrhea, with mastitis, and with and without metritis, and (iii) determine the association between the phenotypic and genotypic antimicrobial resistance identified on the E. coli isolated from postpartum cattle. Bacterial isolates (n = 148) were obtained from a larger cross-sectional study. Cows were categorized into one of three clinical groups before enrollment: metritis, cows with purulent discharge, and control cows. For genomic comparison, public genomes (n = 130) from cows with diarrhea, mastitis, and metritis were included in a genome-wide association study, to evaluate differences between the drug classes or the virulence factor category among clinical groups. A distinct E. coli genotype associated with metritis could not be identified. Instead, a high genetic diversity among the isolates from uterine sources was present. A virulence factor previously associated with metritis (fimH) using PCR was not associated with metritis. There was moderate accuracy for whole-genome sequencing to predict phenotypic resistance, which varied depending on the antimicrobial tested. Findings from this study contradict the traditional pathotype classification and the unique intrauterine E. coli genotype associated with metritis in dairy cows.IMPORTANCEMetritis is a common infectious disease in dairy cattle and the second most common reason for treating a cow with antimicrobials. The pathophysiology of the disease is complex and is not completely understood. Specific endometrial pathogenic Escherichia coli have been reported to be ad

Published

2024

18. A deep learning model of tumor cell architecture elucidates response and resistance to CDK4/6 inhibitors.

Author

Park, Sungjoon, Park, Sungjoon, Silva, Erica, Singhal, Akshat, Kelly, Marcus, Licon, Kate, Panagiotou, Isabella, Fogg, Catalina, Fong, Samson, Lee, John, Zhao, Xiaoyu, Bachelder, Robin, Parker, Barbara, Yeung, Kay, Ideker, Trey, Park, Sungjoon, Park, Sungjoon, Silva, Erica, Singhal, Akshat, Kelly, Marcus, Licon, Kate, Panagiotou, Isabella, Fogg, Catalina, Fong, Samson, Lee, John, Zhao, Xiaoyu, Bachelder, Robin, Parker, Barbara, Yeung, Kay, and Ideker, Trey

Abstract

Cyclin-dependent kinase 4 and 6 inhibitors (CDK4/6is) have revolutionized breast cancer therapy. However, <50% of patients have an objective response, and nearly all patients develop resistance during therapy. To elucidate the underlying mechanisms, we constructed an interpretable deep learning model of the response to palbociclib, a CDK4/6i, based on a reference map of multiprotein assemblies in cancer. The model identifies eight core assemblies that integrate rare and common alterations across 90 genes to stratify palbociclib-sensitive versus palbociclib-resistant cell lines. Predictions translate to patients and patient-derived xenografts, whereas single-gene biomarkers do not. Most predictive assemblies can be shown by CRISPR-Cas9 genetic disruption to regulate the CDK4/6i response. Validated assemblies relate to cell-cycle control, growth factor signaling and a histone regulatory complex that we show promotes S-phase entry through the activation of the histone modifiers KAT6A and TBL1XR1 and the transcription factor RUNX1. This study enables an integrated assessment of how a tumors genetic profile modulates CDK4/6i resistance.

Published

2024

19. Plexin D1 emerges as a novel target in the development of neural lineage plasticity in treatment-resistant prostate cancer

Author

Chen, Bo, Chen, Bo, Xu, Pengfei, Yang, Joy C, Nip, Christopher, Wang, Leyi, Shen, Yuqiu, Ning, Shu, Shang, Yufeng, Corey, Eva, Gao, Allen C, Gestwicki, Jason E, Wei, Qiang, Liu, Liangren, Liu, Chengfei, Chen, Bo, Chen, Bo, Xu, Pengfei, Yang, Joy C, Nip, Christopher, Wang, Leyi, Shen, Yuqiu, Ning, Shu, Shang, Yufeng, Corey, Eva, Gao, Allen C, Gestwicki, Jason E, Wei, Qiang, Liu, Liangren, and Liu, Chengfei

Abstract

Treatment-induced neuroendocrine prostate cancer (t-NEPC) often arises from adenocarcinoma via lineage plasticity in response to androgen receptor signaling inhibitors, such as enzalutamide. However, the specific regulators and targets involved in the transition to NEPC are not well understood. Plexin D1 (PLXND1) is a cellular receptor of the semaphorin (SEMA) family that plays important roles in modulating the cytoskeleton and cell adhesion. Here, we found that PLXND1 was highly expressed and positively correlated with neuroendocrine markers in patients with NEPC. High PLXND1 expression was associated with poorer prognosis in prostate cancer patients. Additionally, PLXND1 was upregulated and negatively regulated by androgen receptor signaling in enzalutamide-resistant cells. Knockdown or knockout of PLXND1 inhibited neural lineage pathways, thereby suppressing NEPC cell proliferation, patient derived xenograft (PDX) tumor organoid viability, and xenograft tumor growth. Mechanistically, the heat shock protein 70 (HSP70) regulated PLXND1 protein stability through degradation, and inhibition of HSP70 decreased PLXND1 expression and NEPC organoid growth. In summary, our findings indicate that PLXND1 could serve as a promising therapeutic target and molecular marker for NEPC.

Published

2024

20. Mutation in Bruton Tyrosine Kinase (BTK) A428D confers resistance To BTK-degrader therapy in chronic lymphocytic leukemia.

Author

Wong, Richard, Wong, Richard, Choi, Michael, Wang, Huan-You, Kipps, Thomas, Wong, Richard, Wong, Richard, Choi, Michael, Wang, Huan-You, and Kipps, Thomas

Abstract

Targeting BTK has profoundly changed the face of CLL treatment over the past decade. Iterative advances in the cat and mouse game of resistance and redesign have moved BTK inhibitors from covalent to non-covalent and now targeted protein degraders. However, contrary to the presumption that protein degraders may be impervious to mutations in BTK, we now present clinical evidence that a mutation in the kinase domain of BTK, namely A428D, can confer disease resistance to a BTK degrader currently in clinical trials, that is BGB-16673. Modeling of a BTK A428D mutation places a negatively charged aspartic acid in place of the hydrophobic side chain of alanine within the binding pocket of another BTK-degrader in clinical development, namely NX-2127, suggesting that CLL cells with BTK A428D also may be resistant to NX-2127, as they already are known to be with either non-covalent or covalent inhibitors of BTK. Consequently, the two BTK degraders furthest advanced in clinical trials potentially may select for CLL cells with BTK A428D that are resistant to all approved BTKis.

Published

2024

21. Stewardship Prompts to Improve Antibiotic Selection for Pneumonia

Author

Gohil, Shruti K, Gohil, Shruti K, Septimus, Edward, Kleinman, Ken, Varma, Neha, Avery, Taliser R, Heim, Lauren, Rahm, Risa, Cooper, William S, Cooper, Mandelin, McLean, Laura E, Nickolay, Naoise G, Weinstein, Robert A, Burgess, L Hayley, Coady, Micaela H, Rosen, Edward, Sljivo, Selsebil, Sands, Kenneth E, Moody, Julia, Vigeant, Justin, Rashid, Syma, Gilbert, Rebecca F, Smith, Kim N, Carver, Brandon, Poland, Russell E, Hickok, Jason, Sturdevant, SG, Calderwood, Michael S, Weiland, Anastasiia, Kubiak, David W, Reddy, Sujan, Neuhauser, Melinda M, Srinivasan, Arjun, Jernigan, John A, Hayden, Mary K, Gowda, Abinav, Eibensteiner, Katyuska, Wolf, Robert, Perlin, Jonathan B, Platt, Richard, Huang, Susan S, Gohil, Shruti K, Gohil, Shruti K, Septimus, Edward, Kleinman, Ken, Varma, Neha, Avery, Taliser R, Heim, Lauren, Rahm, Risa, Cooper, William S, Cooper, Mandelin, McLean, Laura E, Nickolay, Naoise G, Weinstein, Robert A, Burgess, L Hayley, Coady, Micaela H, Rosen, Edward, Sljivo, Selsebil, Sands, Kenneth E, Moody, Julia, Vigeant, Justin, Rashid, Syma, Gilbert, Rebecca F, Smith, Kim N, Carver, Brandon, Poland, Russell E, Hickok, Jason, Sturdevant, SG, Calderwood, Michael S, Weiland, Anastasiia, Kubiak, David W, Reddy, Sujan, Neuhauser, Melinda M, Srinivasan, Arjun, Jernigan, John A, Hayden, Mary K, Gowda, Abinav, Eibensteiner, Katyuska, Wolf, Robert, Perlin, Jonathan B, Platt, Richard, and Huang, Susan S

Abstract

ImportancePneumonia is the most common infection requiring hospitalization and is a major reason for overuse of extended-spectrum antibiotics. Despite low risk of multidrug-resistant organism (MDRO) infection, clinical uncertainty often drives initial antibiotic selection. Strategies to limit empiric antibiotic overuse for patients with pneumonia are needed.ObjectiveTo evaluate whether computerized provider order entry (CPOE) prompts providing patient- and pathogen-specific MDRO infection risk estimates could reduce empiric extended-spectrum antibiotics for non-critically ill patients admitted with pneumonia.Design, setting, and participantsCluster-randomized trial in 59 US community hospitals comparing the effect of a CPOE stewardship bundle (education, feedback, and real-time MDRO risk-based CPOE prompts; n = 29 hospitals) vs routine stewardship (n = 30 hospitals) on antibiotic selection during the first 3 hospital days (empiric period) in non-critically ill adults (≥18 years) hospitalized with pneumonia. There was an 18-month baseline period from April 1, 2017, to September 30, 2018, and a 15-month intervention period from April 1, 2019, to June 30, 2020.InterventionCPOE prompts recommending standard-spectrum antibiotics in patients ordered to receive extended-spectrum antibiotics during the empiric period who have low estimated absolute risk (<10%) of MDRO pneumonia, coupled with feedback and education.Main outcomes and measuresThe primary outcome was empiric (first 3 days of hospitalization) extended-spectrum antibiotic days of therapy. Secondary outcomes included empiric vancomycin and antipseudomonal days of therapy and safety outcomes included days to intensive care unit (ICU) transfer and hospital length of stay. Outcomes compared differences between baseline and intervention periods across strategies.ResultsAmong 59 hospitals with 96 451 (51 671 in the baseline period and 44 780 in the intervention period) adult patients admitted with pneumonia, the mea

Published

2024

22. Stewardship Prompts to Improve Antibiotic Selection for Urinary Tract Infection

Author

Gohil, Shruti K, Gohil, Shruti K, Septimus, Edward, Kleinman, Ken, Varma, Neha, Avery, Taliser R, Heim, Lauren, Rahm, Risa, Cooper, William S, Cooper, Mandelin, McLean, Laura E, Nickolay, Naoise G, Weinstein, Robert A, Burgess, L Hayley, Coady, Micaela H, Rosen, Edward, Sljivo, Selsebil, Sands, Kenneth E, Moody, Julia, Vigeant, Justin, Rashid, Syma, Gilbert, Rebecca F, Smith, Kim N, Carver, Brandon, Poland, Russell E, Hickok, Jason, Sturdevant, SG, Calderwood, Michael S, Weiland, Anastasiia, Kubiak, David W, Reddy, Sujan, Neuhauser, Melinda M, Srinivasan, Arjun, Jernigan, John A, Hayden, Mary K, Gowda, Abinav, Eibensteiner, Katyuska, Wolf, Robert, Perlin, Jonathan B, Platt, Richard, Huang, Susan S, Gohil, Shruti K, Gohil, Shruti K, Septimus, Edward, Kleinman, Ken, Varma, Neha, Avery, Taliser R, Heim, Lauren, Rahm, Risa, Cooper, William S, Cooper, Mandelin, McLean, Laura E, Nickolay, Naoise G, Weinstein, Robert A, Burgess, L Hayley, Coady, Micaela H, Rosen, Edward, Sljivo, Selsebil, Sands, Kenneth E, Moody, Julia, Vigeant, Justin, Rashid, Syma, Gilbert, Rebecca F, Smith, Kim N, Carver, Brandon, Poland, Russell E, Hickok, Jason, Sturdevant, SG, Calderwood, Michael S, Weiland, Anastasiia, Kubiak, David W, Reddy, Sujan, Neuhauser, Melinda M, Srinivasan, Arjun, Jernigan, John A, Hayden, Mary K, Gowda, Abinav, Eibensteiner, Katyuska, Wolf, Robert, Perlin, Jonathan B, Platt, Richard, and Huang, Susan S

Abstract

ImportanceUrinary tract infection (UTI) is the second most common infection leading to hospitalization and is often associated with gram-negative multidrug-resistant organisms (MDROs). Clinicians overuse extended-spectrum antibiotics although most patients are at low risk for MDRO infection. Safe strategies to limit overuse of empiric antibiotics are needed.ObjectiveTo evaluate whether computerized provider order entry (CPOE) prompts providing patient- and pathogen-specific MDRO risk estimates could reduce use of empiric extended-spectrum antibiotics for treatment of UTI.Design, setting, and participantsCluster-randomized trial in 59 US community hospitals comparing the effect of a CPOE stewardship bundle (education, feedback, and real-time and risk-based CPOE prompts; 29 hospitals) vs routine stewardship (n = 30 hospitals) on antibiotic selection during the first 3 hospital days (empiric period) in noncritically ill adults (≥18 years) hospitalized with UTI with an 18-month baseline (April 1, 2017-September 30, 2018) and 15-month intervention period (April 1, 2019-June 30, 2020).InterventionsCPOE prompts recommending empiric standard-spectrum antibiotics in patients ordered to receive extended-spectrum antibiotics who have low estimated absolute risk (<10%) of MDRO UTI, coupled with feedback and education.Main outcomes and measuresThe primary outcome was empiric (first 3 days of hospitalization) extended-spectrum antibiotic days of therapy. Secondary outcomes included empiric vancomycin and antipseudomonal days of therapy. Safety outcomes included days to intensive care unit (ICU) transfer and hospital length of stay. Outcomes were assessed using generalized linear mixed-effect models to assess differences between the baseline and intervention periods.ResultsAmong 127 403 adult patients (71 991 baseline and 55 412 intervention period) admitted with UTI in 59 hospitals, the mean (SD) age was 69.4 (17.9) years, 30.5% were male, and the median Elixhauser Comorbidity

Published

2024

23. Genomic Insights of a Methicillin-Resistant Biofilm-Producing Staphylococcus aureus Strain Isolated From Food Handlers.

Author

Ballah, Fatimah, Ballah, Fatimah, Hoque, M, Islam, Md, Faisal, Golam, Rahman, Al-Muksit, Khatun, Mst, Rahman, Marzia, Hassan, Jayedul, Rahman, Md, Ballah, Fatimah, Ballah, Fatimah, Hoque, M, Islam, Md, Faisal, Golam, Rahman, Al-Muksit, Khatun, Mst, Rahman, Marzia, Hassan, Jayedul, and Rahman, Md

Abstract

Methicillin-resistant Staphylococcus aureus (MRSA) is an important zoonotic pathogen associated with a wide range of infections in humans and animals. Thus, the emergence of MRSA clones poses an important threat to human and animal health. This study is aimed at elucidating the genomics insights of a strong biofilm-producing and multidrug-resistant (MDR) S. aureus MTR_BAU_H1 strain through whole-genome sequencing (WGS). The S. aureus MTR_BAU_H1 strain was isolated from food handlers hand swabs in Bangladesh and phenotypically assessed for antimicrobial susceptibility and biofilm production assays. The isolate was further undergone to high throughput WGS and analysed using different bioinformatics tools to elucidate the genetic diversity, molecular epidemiology, sequence type (ST), antimicrobial resistance, and virulence gene distribution. Phenotypic analyses revealed that the S. aureus MTR_BAU_H1 strain is a strong biofilm-former and carries both antimicrobial resistance (e.g., methicillin resistance; mecA, beta-lactam resistance; blaZ and tetracycline resistance; tetC) and virulence (e.g., sea, tsst, and PVL) genes. The genome of the S. aureus MTR_BAU_H1 belonged to ST1930 that possessed three plasmid replicons (e.g., rep16, rep7c, and rep19), seven prophages, and two clustered regularly interspaced short palindromic repeat (CRISPR) arrays of varying sizes. Phylogenetic analysis showed a close evolutionary relationship between the MTR_BAU_H1 genome and other MRSA clones of diverse hosts and demographics. The MTR_BAU_H1 genome harbours 42 antimicrobial resistance genes (ARGs), 128 virulence genes, and 273 SEED subsystems coding for the metabolism of amino acids, carbohydrates, proteins, cofactors, vitamins, minerals, and lipids. This is the first-ever WGS-based study of a strong biofilm-producing and MDR S. aureus strain isolated from human hand swabs in Bangladesh that unveils new information on the resistomes (ARGs and correlated mechanisms) and virulence potentia

Published

2024

24. Pangenome comparison of Bacteroides fragilis genomospecies unveils genetic diversity and ecological insights

Author

Oles, Renee E, Gibbons, Sean M1, Oles, Renee E, Terrazas, Marvic Carrillo, Loomis, Luke R, Hsu, Chia-Yun, Tribelhorn, Caitlin, Belda-Ferre, Pedro, C., Allison, Bryant, MacKenzie, Young, Jocelyn A, Carrow, Hannah C, Sandborn, William J, Dulai, Parambir S, Sivagnanam, Mamata, Pride, David, Knight, Rob, Chu, Hiutung, Oles, Renee E, Gibbons, Sean M1, Oles, Renee E, Terrazas, Marvic Carrillo, Loomis, Luke R, Hsu, Chia-Yun, Tribelhorn, Caitlin, Belda-Ferre, Pedro, C., Allison, Bryant, MacKenzie, Young, Jocelyn A, Carrow, Hannah C, Sandborn, William J, Dulai, Parambir S, Sivagnanam, Mamata, Pride, David, Knight, Rob, and Chu, Hiutung

Abstract

Bacteroides fragilis is a Gram-negative commensal bacterium commonly found in the human colon, which differentiates into two genomospecies termed divisions I and II. Through a comprehensive collection of 694 B. fragilis whole genome sequences, we identify novel features distinguishing these divisions. Our study reveals a distinct geographic distribution with division I strains predominantly found in North America and division II strains in Asia. Additionally, division II strains are more frequently associated with bloodstream infections, suggesting a distinct pathogenic potential. We report differences between the two divisions in gene abundance related to metabolism, virulence, stress response, and colonization strategies. Notably, division II strains harbor more antimicrobial resistance (AMR) genes than division I strains. These findings offer new insights into the functional roles of division I and II strains, indicating specialized niches within the intestine and potential pathogenic roles in extraintestinal sites.ImportanceUnderstanding the distinct functions of microbial species in the gut microbiome is crucial for deciphering their impact on human health. Classifying division II strains as Bacteroides fragilis can lead to erroneous associations, as researchers may mistakenly attribute characteristics observed in division II strains to the more extensively studied division I B. fragilis. Our findings underscore the necessity of recognizing these divisions as separate species with distinct functions. We unveil new findings of differential gene prevalence between division I and II strains in genes associated with intestinal colonization and survival strategies, potentially influencing their role as gut commensals and their pathogenicity in extraintestinal sites. Despite the significant niche overlap and colonization patterns between these groups, our study highlights the complex dynamics that govern strain distribution and behavior, emphasizing the need for a nu

Published

2024

25. A Kinome-Wide Synthetic Lethal CRISPR/Cas9 Screen Reveals That mTOR Inhibition Prevents Adaptive Resistance to CDK4/CDK6 Blockade in HNSCC.

Author

Goto, Yusuke, Goto, Yusuke, Koshizuka, Keiichi, Ando, Toshinori, Izumi, Hiroki, Wu, Xingyu, Sato, Kuniaki, Ishikawa, Tomohiko, Ford, Kyle, Feng, Xiaodong, Wang, Zhiyong, Arang, Nadia, Allevato, Michael, Kishore, Ayush, Mali, Prashant, Gutkind, Jorge, Goto, Yusuke, Goto, Yusuke, Koshizuka, Keiichi, Ando, Toshinori, Izumi, Hiroki, Wu, Xingyu, Sato, Kuniaki, Ishikawa, Tomohiko, Ford, Kyle, Feng, Xiaodong, Wang, Zhiyong, Arang, Nadia, Allevato, Michael, Kishore, Ayush, Mali, Prashant, and Gutkind, Jorge

Abstract

UNLABELLED: The comprehensive genomic analysis of the head and neck squamous cell carcinoma (HNSCC) oncogenome revealed the frequent loss of p16INK4A (CDKN2A) and amplification of cyclin D1 genes in most human papillomavirus-negative HNSCC lesions. However, cyclin-dependent kinase 4 and 6 (CDK4/6) inhibitors have shown modest effects in the clinic. The aberrant activation of the PI3K/mTOR pathway is highly prevalent in HNSCC, and recent clinical trials have shown promising clinical efficacy of mTOR inhibitors (mTORi) in the neoadjuvant and adjuvant settings but not in patients with advanced HNSCC. By implementing a kinome-wide CRISPR/Cas9 screen, we identified cell-cycle inhibition as a synthetic lethal target for mTORis. A combination of mTORi and palbociclib, a CDK4/6-specific inhibitor, showed strong synergism in HNSCC-derived cells in vitro and in vivo. Remarkably, we found that an adaptive increase in cyclin E1 (CCNE1) expression upon palbociclib treatment underlies the rapid acquired resistance to this CDK4/6 inhibitor. Mechanistically, mTORi inhibits the formation of eIF4G-CCNE1 mRNA complexes, with the consequent reduction in mRNA translation and CCNE1 protein expression. Our findings suggest that mTORi reverts the adaptive resistance to palbociclib. This provides a multimodal therapeutic option for HNSCC by cotargeting mTOR and CDK4/6, which in turn may halt the emergence of palbociclib resistance. SIGNIFICANCE: A kinome-wide CRISPR/Cas9 screen identified cell-cycle inhibition as a synthetic lethal target of mTORis. A combination of mTORi and palbociclib, a CDK4/6-specific inhibitor, showed strong synergistic effects in HNSCC. Mechanistically, mTORis inhibited palbociclib-induced increase in CCNE1.

Published

2024

26. A phase II study of cabozantinib and pembrolizumab in advanced gastric/gastroesophageal adenocarcinomas resistant or refractory to immune checkpoint inhibitors.

Author

Dayyani, Farshid, Dayyani, Farshid, Chao, Joseph, Lee, Fa-Chyi, Taylor, Thomas, Neumann, Kristen, Cho, May, Dayyani, Farshid, Dayyani, Farshid, Chao, Joseph, Lee, Fa-Chyi, Taylor, Thomas, Neumann, Kristen, and Cho, May

Abstract

BACKGROUND: Most patients with metastatic gastroesophageal adenocarcinoma (mGEA) progress on immune checkpoint inhibitors (ICIs). Novel approaches to overcome resistance to ICI in mGEA are needed. Cabozantinib is a multi-tyrosine kinase inhibitor thought to enhance the immunomodulatory effects of ICI. This study evaluated the combination of cabozantinib and pembrolizumab in ICI refractory or resistant mGEA. METHODS: Investigator-initiated, single-arm, single institution, and phase II study in patients with mGEA. Patients had progressed on ICI and/or had PD-L1 CPS score ≤10%. Cabozantinib dose was 40 mg p.o. daily on days 1-21 of a 21-day cycle, with pembrolizumab 200 mg i.v. on day 1. The primary endpoint was progression-free survival at 6 months (PFS-6). RESULTS: Twenty-seven patients were enrolled. Median age 58 years (24-87), female (n = 14), ECOG 0/1 = 13/14, GC/GEJ = 16/11, and non-Hispanic White/Hispanic/Asian = 12/8/7. The primary endpoint was met. After a median follow-up of 31.4 months (range 3.3-42.5), PFS-6 was 22.2% (95% CI 9.0-39.0). The median PFS and OS are 2.3 months (95% CI 1.7-4.1) and 5.5 months (3.1-14.0), respectively. The most common mutations were TP53 (78.3%) and CDH1/PIK3CA/CTNNB1 (17.4% each). The most common grade (G) treatment-related adverse events (TRAE) were diarrhea (25.9%), fatigue (18.5%), hypertension, and muscle cramps (14.8% each). G3-4 TRAE were seen in n = 3 patients (hypertension, thromboembolic event, esophageal perforation; each n = 1). No G5 was observed. CONCLUSIONS: The addition of cabozantinib to pembrolizumab shows clinical benefit in ICI-resistant or refractory mGEA with a tolerable safety profile. (ClinicalTrials.gov Identifier: NCT04164979. IRB Approved: UCI 18-124, University of California Irvine IRB#20195426.).

Published

2024

27. Recent gene selection and drug resistance underscore clinical adaptation across Candida species

Author

Barcelona Supercomputing Center, Schikora Tamarit, Miquel Àngel, Gabaldon, Toni, Barcelona Supercomputing Center, Schikora Tamarit, Miquel Àngel, and Gabaldon, Toni

Abstract

Understanding how microbial pathogens adapt to treatments, humans and clinical environments is key to infer mechanisms of virulence, transmission and drug resistance. This may help improve therapies and diagnostics for infections with a poor prognosis, such as those caused by fungal pathogens, including Candida. Here we analysed genomic variants across approximately 2,000 isolates from six Candida species (C. glabrata, C. auris, C. albicans, C. tropicalis, C. parapsilosis and C. orthopsilosis) and identified genes under recent selection, suggesting a highly complex clinical adaptation. These involve species-specific and convergently affected adaptive mechanisms, such as adhesion. Using convergence-based genome-wide association studies we identified known drivers of drug resistance alongside potentially novel players. Finally, our analyses reveal an important role of structural variants and suggest an unexpected involvement of (para)sexual recombination in the spread of resistance. Our results provide insights on how opportunistic pathogens adapt to human-related environments and unearth candidate genes that deserve future attention., The T.G. group acknowledges support from the Spanish Ministry of Science and Innovation (grant numbers PID2021-126067NB-I00, CPP2021-008552, PCI2022-135066-2 and PDC2022-133266-I00), cofounded by ERDF ‘A way of making Europe’, as well as support from the Catalan Research Agency (grant number SGR01551), European Union’s Horizon 2020 research and innovation programme (grant number ERC-2016-724173), Gordon and Betty Moore Foundation (grant number GBMF9742), ‘La Caixa’ Foundation (grant number LCF/PR/HR21/00737) and Instituto de Salud Carlos III (IMPACT grant number IMP/00019 and CIBERINFEC CB21/13/00061-ISCIII-SGEFI/ERDF). M.A.S.-T. received a Predoctoral Fellowship from the ‘La Caixa’ Foundation (grant number LCF/BQ/DR19/11740023). The authors thank all of the members of the Gabaldón group for key support during this work. In particular H. Hovhannisyan, V. d. Olmo, D. Fuentes, M. Schiavinato, M. Marcet-Houben, G. Torruella, J. C. Núñez, U. Chorostecki and E. Księżopolska, who provided useful feedback, which was key for the project development. In addition, we thank M. Lleal for useful feedback in designing the figures., Peer Reviewed, Postprint (published version)

Published

2024

28. Completed genome and emergence scenario of the multidrug-resistant nosocomial pathogen Staphylococcus epidermidis ST215

Author

Kellgren, Therese, Dwibedi, Chinmay Kumar, Widerström, Micael, Sundell, David, Öhrman, Caroline, Sjödin, Andreas, Monsen, Tor J., Rydén, Patrik, Johansson, Anders, Kellgren, Therese, Dwibedi, Chinmay Kumar, Widerström, Micael, Sundell, David, Öhrman, Caroline, Sjödin, Andreas, Monsen, Tor J., Rydén, Patrik, and Johansson, Anders

Abstract

Background: A multidrug-resistant lineage of Staphylococcus epidermidis named ST215 is a common cause of prosthetic joint infections and other deep surgical site infections in Northern Europe, but is not present elsewhere. The increasing resistance among S. epidermidis strains is a global concern. We used whole-genome sequencing to characterize ST215 from healthcare settings. Results: We completed the genome of a ST215 isolate from a Swedish hospital using short and long reads, resulting in a circular 2,676,787 bp chromosome and a 2,326 bp plasmid. The new ST215 genome was placed in phylogenetic context using 1,361 finished public S. epidermidis reference genomes. We generated 10 additional short-read ST215 genomes and 11 short-read genomes of ST2, which is another common multidrug-resistant lineage at the same hospital. We studied recombination’s role in the evolution of ST2 and ST215, and found multiple recombination events averaging 30–50 kb. By comparing the results of antimicrobial susceptibility testing for 31 antimicrobial drugs with the genome content encoding antimicrobial resistance in the ST215 and ST2 isolates, we found highly similar resistance traits between the isolates, with 22 resistance genes being shared between all the ST215 and ST2 genomes. The ST215 genome contained 29 genes that were historically identified as virulence genes of S. epidermidis ST2. We established that in the nucleotide sequence stretches identified as recombination events, virulence genes were overrepresented in ST215, while antibiotic resistance genes were overrepresented in ST2. Conclusions: This study features the extensive antibiotic resistance and virulence gene content in ST215 genomes. ST215 and ST2 lineages have similarly evolved, acquiring resistance and virulence through genomic recombination. The results highlight the threat of new multidrug-resistant S. epidermidis lineages emerging in healthcare settings.

Published

2024

29. Intraspecific variation in antibiotic resistance potential within E. coli.

Author

Suarez, Stacy, Suarez, Stacy, Martiny, Adam, Suarez, Stacy, Suarez, Stacy, and Martiny, Adam

Abstract

Intraspecific genomic diversity brings the potential for an unreported and diverse reservoir of cryptic antibiotic resistance genes in pathogens, as cryptic resistance can occur without major mutations and horizontal transmission. Here, we predicted the differences in the types of antibiotics and genes that induce cryptic and latent resistance between micro-diverse Escherichia coli strains. For example, we hypothesize that known resistance genes will be the culprit of latent resistance within clinical strains. We used a modified functional metagenomics method to induce expression in eight E. coli strains. We found a total of 66 individual genes conferring phenotypic resistance to 11 out of 16 antibiotics. A total of 14 known antibiotic resistance genes comprised 21% of total identified genes, whereas the majority (52 genes) were unclassified cryptic resistance genes. Between the eight strains, 1.2% of core orthologous genes were positive (conferred resistance in at least one strain). Sixty-four percent of positive orthologous genes conferred resistance to only one strain, demonstrating high intraspecific variability of latent resistance genes. Cryptic resistance genes comprised most resistance genes among laboratory and clinical strains as well as natural, semisynthetic, and synthetic antibiotics. Known antibiotic resistance genes primarily conferred resistance to multiple antibiotics from varying origins and within multiple strains. Hence, it is uncommon for E. coli to develop cross-cryptic resistance to antibiotics from multiple origins or within multiple strains. We have uncovered prospective and previously unknown resistance genes as well as antibiotics that have the potential to trigger latent antibiotic resistance in E. coli strains from varying origins.IMPORTANCEIntraspecific genomic diversity may be a driving force in the emergence of adaptive antibiotic resistance. Adaptive antibiotic resistance enables sensitive bacterial cells to acquire temporary antibio

Published

2024

30. Temporal association of antimicrobial use in livestock with antimicrobial resistance in non-typhoid Salmonella human infections in the Netherlands, 2008–2019

Author

Chanamé Pinedo, Linda E., Meijs, Anouk P., Deng, Huifang, de Greeff, Sabine C., van Duijkeren, Engeline, Dierikx, Cindy M., Veldman, Kees T., Sanders, Pim, van den Beld, Maaike J.C., Wullings, Bart, Franz, Eelco, Pijnacker, Roan, Mughini-Gras, Lapo, Chanamé Pinedo, Linda E., Meijs, Anouk P., Deng, Huifang, de Greeff, Sabine C., van Duijkeren, Engeline, Dierikx, Cindy M., Veldman, Kees T., Sanders, Pim, van den Beld, Maaike J.C., Wullings, Bart, Franz, Eelco, Pijnacker, Roan, and Mughini-Gras, Lapo

Abstract

Background: Antimicrobial use (AMU) in livestock contributes to antimicrobial resistance (AMR) among zoonotic pathogens, such as non-typhoid Salmonella (NTS). Since 2009, the Netherlands has made substantial efforts to reduce AMU in livestock. Objectives: To assess the association between AMU in livestock and AMR in NTS human isolates. Additionally, associations between AMU in broilers/pigs and AMR in NTS broiler/pig isolates, and between AMR in broilers/pigs and in human NTS isolates were assessed. The focus was on Salmonella Enteritidis (SE) and Salmonella Typhimurium including its monophasic variant (ST/STM). Methods: A national population registry-based study was conducted in the Netherlands from 2008 to 2019. Multivariable logistic regression models were used to assess the associations between livestock AMU and NTS resistance proportion in humans and broilers/pigs, overall as well as per class-specific antimicrobials. Correlation analysis was performed to relate AMR proportions between human and broiler/pig NTS isolates. Results: For SE, only a positive association between penicillins use in broilers and resistance to ampicillin among human isolates was significant. For ST/STM, most associations between AMU in livestock and AMR among human isolates were significantly positive, overall and per class-specific antimicrobials, namely for penicillins-ampicillin, tetracyclines-tetracycline and sulfonamides/trimethoprim-sulfamethoxazole/trimethoprim. Significantly positive associations between AMU in broilers/pigs and AMR in broiler/pig ST/STM isolates were also observed, but not between broiler/pig and human AMR levels. Conclusions: Significant associations were generally found between livestock AMU and AMR in human and broiler/pig ST/STM isolates. However, confounding factors, such as imported meat and travel are of concern. To fully comprehend the impact of livestock AMU on resistance in human NTS isolates, it is imperative to enhance AMR surveillance of NTS.

Published

2024

31. Role of Quercetin in DNA Repair: Possible Target to Combat Drug Resistance in Diabetes

Author

Hussain, Yaseen, Abdullah, Khan, Fazlullah, Alam, Waqas, Sardar, Haseeba, Khan, Muhammad Ajmal, Shen, Xiaoyan, Khan, Haroon, Hussain, Yaseen, Abdullah, Khan, Fazlullah, Alam, Waqas, Sardar, Haseeba, Khan, Muhammad Ajmal, Shen, Xiaoyan, and Khan, Haroon

Abstract

Diabetes Mellitus (DM) is referred to as hyperglycemia in either fasting or postprandial phases. Oxidative stress, which is defined by an excessive amount of reactive oxygen species (ROS) production, increased exposure to external stress, and an excessive amount of the cellular defense system against them, results in cellular damage. Increased DNA damage is one of the main causes of genomic instability, and genetic changes are an underlying factor in the emergence of cancer. Through covalent connections with DNA and proteins, quercetin has been demonstrated to offer protection against the creation of oxidative DNA damage. It has been found that quercetin shields DNA from possible oxidative stress-related harm by reducing the production of ROS. Therefore, Quercetin helps to lessen DNA damage and improve the ability of DNA repair mechanisms. This review mainly focuses on the role of quercetin in repairing DNA damage and compensating for drug resistance in diabetic patients. Data on the target topic was obtained from major scientific databases, including SpringerLink, Web of Science, Google Scholar, Medline Plus, PubMed, Science Direct, and Elsevier. In preclinical studies, quercetin guards against DNA deterioration by regulating the degree of lipid peroxidation and enhancing the antioxidant defense system. By reactivating antioxidant enzymes, decreasing ROS levels, and decreasing the levels of 8-hydroxydeoxyguanosine, Quercetin protects DNA from oxidative damage. In clinical studies, it was found that quercetin supplementation was related to increased antioxidant capacity and decreased risk of type 2 diabetes mellitus in the experimental group as compared to the placebo group. It is concluded that quercetin has a significant role in DNA repair in order to overcome drug resistance in diabetes.

Published

2024

32. Completed genome and emergence scenario of the multidrug-resistant nosocomial pathogen Staphylococcus epidermidis ST215

Author

Kellgren, Therese, Dwibedi, Chinmay Kumar, Widerström, Micael, Sundell, David, Öhrman, Caroline, Sjödin, Andreas, Monsen, Tor J., Rydén, Patrik, Johansson, Anders, Kellgren, Therese, Dwibedi, Chinmay Kumar, Widerström, Micael, Sundell, David, Öhrman, Caroline, Sjödin, Andreas, Monsen, Tor J., Rydén, Patrik, and Johansson, Anders

Abstract

Background: A multidrug-resistant lineage of Staphylococcus epidermidis named ST215 is a common cause of prosthetic joint infections and other deep surgical site infections in Northern Europe, but is not present elsewhere. The increasing resistance among S. epidermidis strains is a global concern. We used whole-genome sequencing to characterize ST215 from healthcare settings. Results: We completed the genome of a ST215 isolate from a Swedish hospital using short and long reads, resulting in a circular 2,676,787 bp chromosome and a 2,326 bp plasmid. The new ST215 genome was placed in phylogenetic context using 1,361 finished public S. epidermidis reference genomes. We generated 10 additional short-read ST215 genomes and 11 short-read genomes of ST2, which is another common multidrug-resistant lineage at the same hospital. We studied recombination’s role in the evolution of ST2 and ST215, and found multiple recombination events averaging 30–50 kb. By comparing the results of antimicrobial susceptibility testing for 31 antimicrobial drugs with the genome content encoding antimicrobial resistance in the ST215 and ST2 isolates, we found highly similar resistance traits between the isolates, with 22 resistance genes being shared between all the ST215 and ST2 genomes. The ST215 genome contained 29 genes that were historically identified as virulence genes of S. epidermidis ST2. We established that in the nucleotide sequence stretches identified as recombination events, virulence genes were overrepresented in ST215, while antibiotic resistance genes were overrepresented in ST2. Conclusions: This study features the extensive antibiotic resistance and virulence gene content in ST215 genomes. ST215 and ST2 lineages have similarly evolved, acquiring resistance and virulence through genomic recombination. The results highlight the threat of new multidrug-resistant S. epidermidis lineages emerging in healthcare settings.

Published

2024

33. Empowering macrophages : the cancer fighters within the tumour microenvironment in mantle cell lymphoma

Author

Nylund, Patrick, Nikkarinen, Anna, Ek, Sara, Glimelius, Ingrid, Nylund, Patrick, Nikkarinen, Anna, Ek, Sara, and Glimelius, Ingrid

Abstract

In Mantle Cell Lymphoma (MCL), the role of macrophages within the tumour microenvironment (TME) has recently gained attention due to their impact on prognosis and response to therapy. Despite their low absolute number in MCL tumour tissue, recent findings reveal an association between the levels of macrophages and prognosis, consistent with trends observed in other lymphoma subtypes. M2-like macrophages, identified by markers such as CD163, contribute to angiogenesis and suppression of the immune response. Clinical trials with MCL patients treated with chemoimmunotherapy and targeted treatments underscore the adverse impact of high levels of M2-like macrophages. Immunomodulatory drugs like lenalidomide reduce the levels of MCL-associated CD163+ macrophages and enhance macrophage phagocytic activity. Similarly, clinical approaches targeting the CD47 “don’t eat me” signalling, in combination with the anti-CD20-antibody rituximab, demonstrate increased macrophage activity and phagocytosis of MCL tumour cells. Cell-based therapies such as chimeric antigen receptor (CAR) T-cell have shown promise but various challenges persist, leading to a potential interest in CAR-macrophages (CAR-M). When macrophages are recruited to the TME, they offer advantages including phagocytic function and responsiveness to microenvironment alterations, suggesting their potential as a manipulable and inducible alternative when CAR T-cell therapies fails in the complex landscape of MCL treatment.

Published

2024

34. Understanding veterinary drug shop workers' knowledge and practices to identify drivers of antibiotic use in Vietnamese livestock farms

Author

Nohrborg, Sandra, Nguyen-Thi, Thinh, Xuan, Huyen Nguyen, Hai, Yen Luu Thi, Lindahl, Johanna, Boqvist, Sofia, Järhult, Josef D., Magnusson, Ulf, Nohrborg, Sandra, Nguyen-Thi, Thinh, Xuan, Huyen Nguyen, Hai, Yen Luu Thi, Lindahl, Johanna, Boqvist, Sofia, Järhult, Josef D., and Magnusson, Ulf

Abstract

Background Antimicrobial resistance (AMR) is a One Health issue and a major threat to animal and human health. Antibiotic use (ABU) drives AMR development, and several hotspots for ABU, and AMR, in livestock have been identified in Southeast Asia, including Vietnam. There are often multiple drivers of ABU at farms, and to identify all of them there is a need to look beyond farm level. Objectives The overall aim of this study was to identify routines and/or competencies, related to antibiotic sales, among veterinary drug shop workers that may be improved in order to decrease the medically non-rational use of antibiotics in livestock production. Methods A questionnaire-based survey was conducted at 50 veterinary drug shops in northern Vietnam. Results Results showed high education and knowledge levels. According to the respondents, antibiotic treatment advice was almost always provided to the farmers, and the recommended treatment was most commonly based on recommendations for the specific disease. However, farmers had almost never had their animals properly diagnosed. Antibiotics were the most sold drug category, penicillins being the most common. Several broad-spectrum antibiotics were also quite frequently sold. Further, >50% of respondents recommended antibiotics for disease prevention. Conclusions Even though education and knowledge levels might be high, several challenges can prevent drug shop workers from contributing to more prudent ABU at farms, for example, lack of proper diagnosis, commercial interests and individual farmer motives, often in combination with poor compliance to regulations.

Published

2024

35. Empowering macrophages : the cancer fighters within the tumour microenvironment in mantle cell lymphoma

Author

Nylund, Patrick, Nikkarinen, Anna, Ek, Sara, Glimelius, Ingrid, Nylund, Patrick, Nikkarinen, Anna, Ek, Sara, and Glimelius, Ingrid

Abstract

In Mantle Cell Lymphoma (MCL), the role of macrophages within the tumour microenvironment (TME) has recently gained attention due to their impact on prognosis and response to therapy. Despite their low absolute number in MCL tumour tissue, recent findings reveal an association between the levels of macrophages and prognosis, consistent with trends observed in other lymphoma subtypes. M2-like macrophages, identified by markers such as CD163, contribute to angiogenesis and suppression of the immune response. Clinical trials with MCL patients treated with chemoimmunotherapy and targeted treatments underscore the adverse impact of high levels of M2-like macrophages. Immunomodulatory drugs like lenalidomide reduce the levels of MCL-associated CD163+ macrophages and enhance macrophage phagocytic activity. Similarly, clinical approaches targeting the CD47 “don’t eat me” signalling, in combination with the anti-CD20-antibody rituximab, demonstrate increased macrophage activity and phagocytosis of MCL tumour cells. Cell-based therapies such as chimeric antigen receptor (CAR) T-cell have shown promise but various challenges persist, leading to a potential interest in CAR-macrophages (CAR-M). When macrophages are recruited to the TME, they offer advantages including phagocytic function and responsiveness to microenvironment alterations, suggesting their potential as a manipulable and inducible alternative when CAR T-cell therapies fails in the complex landscape of MCL treatment.

Published

2024

36. Completed genome and emergence scenario of the multidrug-resistant nosocomial pathogen Staphylococcus epidermidis ST215

Author

Kellgren, Therese, Dwibedi, Chinmay Kumar, Widerström, Micael, Sundell, David, Öhrman, Caroline, Sjödin, Andreas, Monsen, Tor J., Rydén, Patrik, Johansson, Anders, Kellgren, Therese, Dwibedi, Chinmay Kumar, Widerström, Micael, Sundell, David, Öhrman, Caroline, Sjödin, Andreas, Monsen, Tor J., Rydén, Patrik, and Johansson, Anders

Abstract

Background: A multidrug-resistant lineage of Staphylococcus epidermidis named ST215 is a common cause of prosthetic joint infections and other deep surgical site infections in Northern Europe, but is not present elsewhere. The increasing resistance among S. epidermidis strains is a global concern. We used whole-genome sequencing to characterize ST215 from healthcare settings. Results: We completed the genome of a ST215 isolate from a Swedish hospital using short and long reads, resulting in a circular 2,676,787 bp chromosome and a 2,326 bp plasmid. The new ST215 genome was placed in phylogenetic context using 1,361 finished public S. epidermidis reference genomes. We generated 10 additional short-read ST215 genomes and 11 short-read genomes of ST2, which is another common multidrug-resistant lineage at the same hospital. We studied recombination’s role in the evolution of ST2 and ST215, and found multiple recombination events averaging 30–50 kb. By comparing the results of antimicrobial susceptibility testing for 31 antimicrobial drugs with the genome content encoding antimicrobial resistance in the ST215 and ST2 isolates, we found highly similar resistance traits between the isolates, with 22 resistance genes being shared between all the ST215 and ST2 genomes. The ST215 genome contained 29 genes that were historically identified as virulence genes of S. epidermidis ST2. We established that in the nucleotide sequence stretches identified as recombination events, virulence genes were overrepresented in ST215, while antibiotic resistance genes were overrepresented in ST2. Conclusions: This study features the extensive antibiotic resistance and virulence gene content in ST215 genomes. ST215 and ST2 lineages have similarly evolved, acquiring resistance and virulence through genomic recombination. The results highlight the threat of new multidrug-resistant S. epidermidis lineages emerging in healthcare settings.

Published

2024

37. Immunologic signatures of response and resistance to nivolumab with ipilimumab in advanced metastatic cancer.

Author

Tsimberidou, Apostolia, Tsimberidou, Apostolia, Alayli, Farah, Okrah, Kwame, Drakaki, Alexandra, Khalil, Danny, Kummar, Shivaani, Khan, Saad, Hodi, F, Oh, David, Cabanski, Christopher, Gautam, Shikha, Meier, Stefanie, Amouzgar, Meelad, Pfeiffer, Shannon, Kageyama, Robin, Yang, EnJun, Spasic, Marko, Tetzlaff, Michael, Foo, Wai, Hollmann, Travis, Li, Yanyun, Adamow, Matthew, Wong, Phillip, Moore, Jonni, Velichko, Sharlene, Chen, Richard, Kumar, Dinesh, Bucktrout, Samantha, Ibrahim, Ramy, Dugan, Ute, Salvador, Lisa, Hubbard-Lucey, Vanessa, ODonnell-Tormey, Jill, Santulli-Marotto, Sandra, Butterfield, Lisa, Da Silva, Diane, Fairchild, Justin, LaVallee, Theresa, Padrón, Lacey, Sharma, Padmanee, Tsimberidou, Apostolia, Tsimberidou, Apostolia, Alayli, Farah, Okrah, Kwame, Drakaki, Alexandra, Khalil, Danny, Kummar, Shivaani, Khan, Saad, Hodi, F, Oh, David, Cabanski, Christopher, Gautam, Shikha, Meier, Stefanie, Amouzgar, Meelad, Pfeiffer, Shannon, Kageyama, Robin, Yang, EnJun, Spasic, Marko, Tetzlaff, Michael, Foo, Wai, Hollmann, Travis, Li, Yanyun, Adamow, Matthew, Wong, Phillip, Moore, Jonni, Velichko, Sharlene, Chen, Richard, Kumar, Dinesh, Bucktrout, Samantha, Ibrahim, Ramy, Dugan, Ute, Salvador, Lisa, Hubbard-Lucey, Vanessa, ODonnell-Tormey, Jill, Santulli-Marotto, Sandra, Butterfield, Lisa, Da Silva, Diane, Fairchild, Justin, LaVallee, Theresa, Padrón, Lacey, and Sharma, Padmanee

Abstract

Identifying pan-tumor biomarkers that predict responses to immune checkpoint inhibitors (ICI) is critically needed. In the AMADEUS clinical trial (NCT03651271), patients with various advanced solid tumors were assessed for changes in intratumoral CD8 percentages and their response to ICI. Patients were grouped based on tumoral CD8 levels: those with CD8 <15% (CD8-low) received nivolumab (anti-PD-1) plus ipilimumab (anti-CTLA4) and those with CD8 ≥15% (CD8-high) received nivolumab monotherapy. 79 patients (72 CD8-low and 7 CD8-high) were treated. The disease control rate was 25.0% (18/72; 95% CI: 15.8-35.2) in CD8-low and 14.3% (1/7; 95% CI: 1.1-43.8) in CD8-high. Tumors from 35.9% (14/39; 95% CI: 21.8-51.4) of patients converted from CD8 <15% pretreatment to ≥15% after treatment. Multiomic analyses showed that CD8-low responders had an inflammatory tumor microenvironment pretreatment, enhanced by an influx of CD8 T cells, CD4 T cells, B cells, and macrophages upon treatment. These findings reveal crucial pan-cancer immunological features for ICI response in patients with metastatic disease.

Published

2024

38. A novel lipophilic amiloride derivative efficiently kills chemoresistant breast cancer cells

Author

Hu, Michelle, Hu, Michelle, Liu, Ruiwu, Castro, Noemi, Loza Sanchez, Liliana, Rueankham, Lapamas, Learn, Julie A, Huang, Ruiqi, Lam, Kit S, Carraway, Kermit L, Hu, Michelle, Hu, Michelle, Liu, Ruiwu, Castro, Noemi, Loza Sanchez, Liliana, Rueankham, Lapamas, Learn, Julie A, Huang, Ruiqi, Lam, Kit S, and Carraway, Kermit L

Abstract

Derivatives of the potassium-sparing diuretic amiloride are preferentially cytotoxic toward tumor cells relative to normal cells, and have the capacity to target tumor cell populations resistant to currently employed therapeutic agents. However, a major barrier to clinical translation of the amilorides is their modest cytotoxic potency, with estimated IC50 values in the high micromolar range. Here we report the synthesis of ten novel amiloride derivatives and the characterization of their cytotoxic potency toward MCF7 (ER/PR-positive), SKBR3 (HER2-positive) and MDA-MB-231 (triple negative) cell line models of breast cancer. Comparisons of derivative structure with cytotoxic potency toward these cell lines underscore the importance of an intact guanidine group, and uncover a strong link between drug-induced cytotoxicity and drug lipophilicity. We demonstrate that our most potent derivative called LLC1 is preferentially cytotoxic toward mouse mammary tumor over normal epithelial organoids, acts in the single digit micromolar range on breast cancer cell line models representing all major subtypes, acts on cell lines that exhibit both transient and sustained resistance to chemotherapeutic agents, but exhibits limited anti-tumor effects in a mouse model of metastatic breast cancer. Nonetheless, our observations offer a roadmap for the future optimization of amiloride-based compounds with preferential cytotoxicity toward breast tumor cells.

Published

2024

39. BRCA1 foci test as a predictive biomarker of olaparib response in ovarian cancer patient-derived xenograft models

Author

Guffanti, F, Mengoli, I, Alvisi, M, Dellavedova, G, Giavazzi, R, Fruscio, R, Rulli, E, Damia, G, Guffanti F., Mengoli I., Alvisi M. F., Dellavedova G., Giavazzi R., Fruscio R., Rulli E., Damia G., Guffanti, F, Mengoli, I, Alvisi, M, Dellavedova, G, Giavazzi, R, Fruscio, R, Rulli, E, Damia, G, Guffanti F., Mengoli I., Alvisi M. F., Dellavedova G., Giavazzi R., Fruscio R., Rulli E., and Damia G.

Abstract

Standard therapy for high-grade ovarian carcinoma includes surgery followed by platinum-based chemotherapy and poly-ADP ribose polymerase inhibitors (PARPis). Deficiency in homologous recombination repair (HRD) characterizes almost half of high-grade ovarian carcinomas and is due to genetic and epigenetic alterations in genes involved in HR repair, mainly BRCA1/BRCA2, and predicts response to PARPi. The academic and commercial tests set up to define the HRD status of the tumor rely on DNA sequencing analysis, while functional tests such as the RAD51 foci assay are currently under study, but have not been validated yet and are available for patients. In a well-characterized ovarian carcinoma patient-derived xenograft platform whose response to cisplatin and olaparib, a PARPi, is known, we assessed the association between the BRCA1 foci score, determined in formalin-fixed paraffin-embedded tumor slices with an immunofluorescence technique, and other HRD biomarkers and explored the potential of the BRCA1 foci test to predict tumors’ response to cisplatin and olaparib. The BRCA1 foci score was associated with both tumors’ HRD status and RAD51 foci score. A low BRCA1 foci score predicted response to olaparib and cisplatin, while a high score was associated with resistance to therapy. As we recently published that a low RAD51 foci score predicted olaparib sensitivity in our xenobank, we combined the two scores and showed that the predictive value was better than with the single tests. This study reports for the first time the capacity of the BRCA1 foci test to identify HRD ovarian carcinomas and possibly predict response to olaparib.

Published

2024

40. Empowering macrophages : the cancer fighters within the tumour microenvironment in mantle cell lymphoma

Author

Nylund, Patrick, Nikkarinen, Anna, Ek, Sara, Glimelius, Ingrid, Nylund, Patrick, Nikkarinen, Anna, Ek, Sara, and Glimelius, Ingrid

Abstract

In Mantle Cell Lymphoma (MCL), the role of macrophages within the tumour microenvironment (TME) has recently gained attention due to their impact on prognosis and response to therapy. Despite their low absolute number in MCL tumour tissue, recent findings reveal an association between the levels of macrophages and prognosis, consistent with trends observed in other lymphoma subtypes. M2-like macrophages, identified by markers such as CD163, contribute to angiogenesis and suppression of the immune response. Clinical trials with MCL patients treated with chemoimmunotherapy and targeted treatments underscore the adverse impact of high levels of M2-like macrophages. Immunomodulatory drugs like lenalidomide reduce the levels of MCL-associated CD163+ macrophages and enhance macrophage phagocytic activity. Similarly, clinical approaches targeting the CD47 “don’t eat me” signalling, in combination with the anti-CD20-antibody rituximab, demonstrate increased macrophage activity and phagocytosis of MCL tumour cells. Cell-based therapies such as chimeric antigen receptor (CAR) T-cell have shown promise but various challenges persist, leading to a potential interest in CAR-macrophages (CAR-M). When macrophages are recruited to the TME, they offer advantages including phagocytic function and responsiveness to microenvironment alterations, suggesting their potential as a manipulable and inducible alternative when CAR T-cell therapies fails in the complex landscape of MCL treatment.

Published

2024

41. Organo-ptii complexes for potent photodynamic inactivation of multi-drug resistant bacteria and the influence of configuration

Author

Chong, Hui, Liu, Xuanwei, Fang, Siyu, Yang, Xiaofei, Zhang, Yuefei, Wang, Tianyi, Liu, Lin, Kan, Yinshi, Zhao, Yueqi, Fan, Hongying, Zhang, Jingqi, Wang, Xiaoyu, Yao, Hang, Yang, Yi, Gao, Yijian, Zhao, Qi, Li, Shengliang, Plymoth, Martin, Xi, Juqun, Zhang, Yu, Wang, Chengyin, Pang, Huan, Chong, Hui, Liu, Xuanwei, Fang, Siyu, Yang, Xiaofei, Zhang, Yuefei, Wang, Tianyi, Liu, Lin, Kan, Yinshi, Zhao, Yueqi, Fan, Hongying, Zhang, Jingqi, Wang, Xiaoyu, Yao, Hang, Yang, Yi, Gao, Yijian, Zhao, Qi, Li, Shengliang, Plymoth, Martin, Xi, Juqun, Zhang, Yu, Wang, Chengyin, and Pang, Huan

Abstract

PtII based organometallic photosensitizers (PSs) have emerged as novel potent photodynamic inactivation (PDI) reagents through their enhanced intersystem crossing (ISC) processes. Currently, few PtII PSs have been investigated as antibacterial materials, with relatively poor performances reported and with structure-activity relationships not well described. Herein, a pair of configurational isomers are reported of Bis-BODIPY (4,4-difluoro-boradizaindacene) embedded PtII PSs. The cis-isomer (cis-BBP) displayed enhanced 1O2 generation and better bacterial membrane anchoring capability as compared to the trans-isomer (trans-BBP). The effective PDI concentrations (efficiency > 99.9%) for cis-BBP in Acinetobacter baumannii (multi-drug resistant (MDR)) and Staphylococcus aureus are 400 nM (12 J cm−2) and 100 nM (18 J cm−2), respectively; corresponding concentrations and light doses for trans-BBP in the two bacteria are 2.50 µM (30 J cm−2) and 1.50 µM (18 J cm−2), respectively. The 50% and 90% minimum inhibitory concentration (MIC50 and MIC90) ratio of trans-BBP to cis-BBP is 22.22 and 24.02 in A. baumannii (MDR); 21.29 and 22.36 in methicillin resistant S. aureus (MRSA), respectively. Furthermore, cis-BBP displays superior in vivo antibacterial performance, with acceptable dark and photoinduced cytotoxicity. These results demonstrate cis-BBP is a robust light-assisted antibacterial reagent at sub-micromolecular concentrations. More importantly, configuration of PtII PSs should be an important issue to be considered in further PDI reagents design.

Published

2024

42. Effect of Mutation of RNA-dependent RNA Polymerase (RdRp) of Hepatitis C Virus on Affinities of Dasabuvir: Computational Study: Pengaruh Mutasi RNA-dependent RNA polymerase (RdRp) pada Virus Hepatitis C terhadap Afinitas Dasabuvir: Kajian Komputasi

Author

Arba, Muhammad, Wahyudi, Setyanto Tri, Arba, Muhammad, and Wahyudi, Setyanto Tri

Abstract

Hepatitis C Virus (HCV) is one of the infectious diseases that has posed a serious threat to global public health for the past few decades. HCV is an RNA virus that infects the human liver and can lead to chronic liver damage, cirrhosis, and even liver cancer. Treatment for HCV infection has made rapid advancements in recent years, particularly with the development of more effective antiviral drugs. One of the drugs used in HCV therapy is dasabuvir. Dasabuvir is an RNA-dependent RNA polymerase (RdRp) inhibitor that functions to inhibit the replication of the HCV virus. The RdRp enzyme in HCV is represented by NS5B, and dasabuvir specifically targets this enzyme. Several reports have revealed mutations in HCV NS5B due to the use of dasabuvir. This study conducted a computational mutation analysis on NS5B of HCV resulting from dasabuvir usage. The research findings indicate that mutations in the HCV polymerase induced by dasabuvir usage lead to changes in dasabuvir's conformation and binding energy. Some mutations decrease binding energy, such as mutations C316N, C451S, and N411S. However, on the other hand, there are mutations that increase binding energy, such as M414V, A553V, and C445F. The decrease in binding energy is supported by increased hydrogen bonding interactions with Asp318, Gln446, and Tyr448, as well as the formation of new hydrogen bonds, such as hydrogen bonding with Ser288 in C451S and Arg200 in C451S. Meanwhile, the increase in binding energy is supported by decreased binding interactions with Asp318 and pi-pi interactions with Phe193. Hydrogen bonding with Asn291 also decreases, as seen in A553V, and is even lost in C445F. Future work will be devoted for designing new dasabuvir derivatives which having better affinited to NS5B of HCV.

Published

2024

43. Effect of Mutation of RNA-dependent RNA Polymerase (RdRp) of Hepatitis C Virus on Affinities of Dasabuvir: Computational Study: Pengaruh Mutasi RNA-dependent RNA polymerase (RdRp) pada Virus Hepatitis C terhadap Afinitas Dasabuvir: Kajian Komputasi

Author

Arba, Muhammad, Wahyudi, Setyanto Tri, Arba, Muhammad, and Wahyudi, Setyanto Tri

Abstract

Hepatitis C Virus (HCV) is one of the infectious diseases that has posed a serious threat to global public health for the past few decades. HCV is an RNA virus that infects the human liver and can lead to chronic liver damage, cirrhosis, and even liver cancer. Treatment for HCV infection has made rapid advancements in recent years, particularly with the development of more effective antiviral drugs. One of the drugs used in HCV therapy is dasabuvir. Dasabuvir is an RNA-dependent RNA polymerase (RdRp) inhibitor that functions to inhibit the replication of the HCV virus. The RdRp enzyme in HCV is represented by NS5B, and dasabuvir specifically targets this enzyme. Several reports have revealed mutations in HCV NS5B due to the use of dasabuvir. This study conducted a computational mutation analysis on NS5B of HCV resulting from dasabuvir usage. The research findings indicate that mutations in the HCV polymerase induced by dasabuvir usage lead to changes in dasabuvir's conformation and binding energy. Some mutations decrease binding energy, such as mutations C316N, C451S, and N411S. However, on the other hand, there are mutations that increase binding energy, such as M414V, A553V, and C445F. The decrease in binding energy is supported by increased hydrogen bonding interactions with Asp318, Gln446, and Tyr448, as well as the formation of new hydrogen bonds, such as hydrogen bonding with Ser288 in C451S and Arg200 in C451S. Meanwhile, the increase in binding energy is supported by decreased binding interactions with Asp318 and pi-pi interactions with Phe193. Hydrogen bonding with Asn291 also decreases, as seen in A553V, and is even lost in C445F. Future work will be devoted for designing new dasabuvir derivatives which having better affinited to NS5B of HCV.

Published

2024

44. Effect of Mutation of RNA-dependent RNA Polymerase (RdRp) of Hepatitis C Virus on Affinities of Dasabuvir: Computational Study: Pengaruh Mutasi RNA-dependent RNA polymerase (RdRp) pada Virus Hepatitis C terhadap Afinitas Dasabuvir: Kajian Komputasi

Author

Arba, Muhammad, Wahyudi, Setyanto Tri, Arba, Muhammad, and Wahyudi, Setyanto Tri

Abstract

Hepatitis C Virus (HCV) is one of the infectious diseases that has posed a serious threat to global public health for the past few decades. HCV is an RNA virus that infects the human liver and can lead to chronic liver damage, cirrhosis, and even liver cancer. Treatment for HCV infection has made rapid advancements in recent years, particularly with the development of more effective antiviral drugs. One of the drugs used in HCV therapy is dasabuvir. Dasabuvir is an RNA-dependent RNA polymerase (RdRp) inhibitor that functions to inhibit the replication of the HCV virus. The RdRp enzyme in HCV is represented by NS5B, and dasabuvir specifically targets this enzyme. Several reports have revealed mutations in HCV NS5B due to the use of dasabuvir. This study conducted a computational mutation analysis on NS5B of HCV resulting from dasabuvir usage. The research findings indicate that mutations in the HCV polymerase induced by dasabuvir usage lead to changes in dasabuvir's conformation and binding energy. Some mutations decrease binding energy, such as mutations C316N, C451S, and N411S. However, on the other hand, there are mutations that increase binding energy, such as M414V, A553V, and C445F. The decrease in binding energy is supported by increased hydrogen bonding interactions with Asp318, Gln446, and Tyr448, as well as the formation of new hydrogen bonds, such as hydrogen bonding with Ser288 in C451S and Arg200 in C451S. Meanwhile, the increase in binding energy is supported by decreased binding interactions with Asp318 and pi-pi interactions with Phe193. Hydrogen bonding with Asn291 also decreases, as seen in A553V, and is even lost in C445F. Future work will be devoted for designing new dasabuvir derivatives which having better affinited to NS5B of HCV.

Published

2024

45. State-transition modeling of blood transcriptome predicts disease evolution and treatment response in chronic myeloid leukemia

Author

Frankhouser, David E, Frankhouser, David E, Rockne, Russell C, Uechi, Lisa, Zhao, Dandan, Branciamore, Sergio, O’Meally, Denis, Irizarry, Jihyun, Ghoda, Lucy, Ali, Haris, Trent, Jeffery M, Forman, Stephen, Fu, Yu-Hsuan, Kuo, Ya-Huei, Zhang, Bin, Marcucci, Guido, Frankhouser, David E, Frankhouser, David E, Rockne, Russell C, Uechi, Lisa, Zhao, Dandan, Branciamore, Sergio, O’Meally, Denis, Irizarry, Jihyun, Ghoda, Lucy, Ali, Haris, Trent, Jeffery M, Forman, Stephen, Fu, Yu-Hsuan, Kuo, Ya-Huei, Zhang, Bin, and Marcucci, Guido

Abstract

Chronic myeloid leukemia (CML) is initiated and maintained by BCR::ABL which is clinically targeted using tyrosine kinase inhibitors (TKIs). TKIs can induce long-term remission but are also not curative. Thus, CML is an ideal system to test our hypothesis that transcriptome-based state-transition models accurately predict cancer evolution and treatment response. We collected time-sequential blood samples from tetracycline-off (Tet-Off) BCR::ABL-inducible transgenic mice and wild-type controls. From the transcriptome, we constructed a CML state-space and a three-well leukemogenic potential landscape. The potential's stable critical points defined observable disease states. Early states were characterized by anti-CML genes opposing leukemia; late states were characterized by pro-CML genes. Genes with expression patterns shaped similarly to the potential landscape were identified as drivers of disease transition. Re-introduction of tetracycline to silence the BCR::ABL gene returned diseased mice transcriptomes to a near healthy state, without reaching it, suggesting parts of the transition are irreversible. TKI only reverted the transcriptome to an intermediate disease state, without approaching a state of health; disease relapse occurred soon after treatment. Using only the earliest time-point as initial conditions, our state-transition models accurately predicted both disease progression and treatment response, supporting this as a potentially valuable approach to time clinical intervention, before phenotypic changes become detectable.

Published

2024

46. Distribution of bacteria and antimicrobial resistance in retail Nile tilapia (Oreochromis spp.) as potential sources of foodborne illness.

Author

Sripradite, Jarukorn, Sripradite, Jarukorn, Thaotumpitak, Varangkana, Atwill, Edward, Hinthong, Woranich, Jeamsripong, Saharuetai, Sripradite, Jarukorn, Sripradite, Jarukorn, Thaotumpitak, Varangkana, Atwill, Edward, Hinthong, Woranich, and Jeamsripong, Saharuetai

Abstract

This study aimed to investigate AMR profiles of Aeromonas hydrophila, Salmonella spp., and Vibrio cholerae isolated from Nile tilapia (Oreochromis spp.) (n = 276) purchased from fresh markets and supermarkets in Bangkok, Thailand. A sample of tilapia was divided into three parts: fish intestine (n = 276), fish meat (n = 276), and liver and kidney (n = 276). The occurrence of A. hydrophila, Salmonella, and V. cholerae was 3.1%, 7.4%, and 8.5%, respectively. A high prevalence of these pathogenic bacteria was observed in fresh market tilapia compared to those from supermarkets (p < 0.05). The predominant Salmonella serovars were Paratyphi B (6.4%), followed by Escanaba (5.7%), and Saintpaul (5.7%). All isolates tested positive for the virulence genes of A. hydrophila (aero and hly), Salmonella (invA), and V. cholerae (hlyA). A. hydrophila (65.4%), Salmonella (31.2%), and V. cholerae (2.9%) showed multidrug resistant isolates. All A. hydrophila isolates (n = 26) exhibited resistant to ampicillin (100.0%) and florfenicol (100.0%), and often carried sul1 (53.8%) and tetA (50.0%). Salmonella isolates were primarily resistant to ampicillin (36.9%), with a high incidence of blaTEM (26.2%) and qnrS (25.5%). For V. cholerae isolates, resistance was observed against ampicillin (48.6%), and they commonly carried qnrS (24.3%) and tetA (22.9%). To identify mutations in the quinolone resistance determining regions (QRDRs), a single C248A point mutation of C248A (Ser-83-Tyr) in the gyrA region was identified in six out of seven isolates of Salmonella isolates. This study highlighted the presence of antimicrobial-resistant pathogenic bacteria in Nile tilapia at a selling point. It is important to rigorously implement strategies for AMR control and prevention.

Published

2024

47. Empowering macrophages : the cancer fighters within the tumour microenvironment in mantle cell lymphoma

Author

Nylund, Patrick, Nikkarinen, Anna, Ek, Sara, Glimelius, Ingrid, Nylund, Patrick, Nikkarinen, Anna, Ek, Sara, and Glimelius, Ingrid

Abstract

In Mantle Cell Lymphoma (MCL), the role of macrophages within the tumour microenvironment (TME) has recently gained attention due to their impact on prognosis and response to therapy. Despite their low absolute number in MCL tumour tissue, recent findings reveal an association between the levels of macrophages and prognosis, consistent with trends observed in other lymphoma subtypes. M2-like macrophages, identified by markers such as CD163, contribute to angiogenesis and suppression of the immune response. Clinical trials with MCL patients treated with chemoimmunotherapy and targeted treatments underscore the adverse impact of high levels of M2-like macrophages. Immunomodulatory drugs like lenalidomide reduce the levels of MCL-associated CD163+ macrophages and enhance macrophage phagocytic activity. Similarly, clinical approaches targeting the CD47 “don’t eat me” signalling, in combination with the anti-CD20-antibody rituximab, demonstrate increased macrophage activity and phagocytosis of MCL tumour cells. Cell-based therapies such as chimeric antigen receptor (CAR) T-cell have shown promise but various challenges persist, leading to a potential interest in CAR-macrophages (CAR-M). When macrophages are recruited to the TME, they offer advantages including phagocytic function and responsiveness to microenvironment alterations, suggesting their potential as a manipulable and inducible alternative when CAR T-cell therapies fails in the complex landscape of MCL treatment.

Published

2024

48. Metagenomic assembly is the main bottleneck in the identification of mobile genetic elements

Author

Kerkvliet, Jesse J., Bossers, Alex, Kers, Jannigje G., Meneses, Rodrigo, Willems, Rob, Schürch, Anita C., Kerkvliet, Jesse J., Bossers, Alex, Kers, Jannigje G., Meneses, Rodrigo, Willems, Rob, and Schürch, Anita C.

Abstract

Antimicrobial resistance genes (ARG) are commonly found on acquired mobile genetic elements (MGEs) such as plasmids or transposons. Understanding the spread of resistance genes associated with mobile elements (mARGs) across different hosts and environments requires linking ARGs to the existing mobile reservoir within bacterial communities. However, reconstructing mARGs in metagenomic data from diverse ecosystems poses computational challenges, including genome fragment reconstruction (assembly), high-throughput annotation of MGEs, and identification of their association with ARGs. Recently, several bioinformatics tools have been developed to identify assembled fragments of plasmids, phages, and insertion sequence (IS) elements in metagenomic data. These methods can help in understanding the dissemination of mARGs. To streamline the process of identifying mARGs in multiple samples, we combined these tools in an automated high-throughput open-source pipeline, MetaMobilePicker, that identifies ARGs associated with plasmids, IS elements and phages, starting from short metagenomic sequencing reads. This pipeline was used to identify these three elements on a simplified simulated metagenome dataset, comprising whole genome sequences from seven clinically relevant bacterial species containing 55 ARGs, nine plasmids and five phages. The results demonstrated moderate precision for the identification of plasmids (0.57) and phages (0.71), and moderate sensitivity of identification of IS elements (0.58) and ARGs (0.70). In this study, we aim to assess the main causes of this moderate performance of the MGE prediction tools in a comprehensive manner. We conducted a systematic benchmark, considering metagenomic read coverage, contig length cutoffs and investigating the performance of the classification algorithms. Our analysis revealed that the metagenomic assembly process is the primary bottleneck when linking ARGs to identified MGEs in short-read metagenomics sequencing experim

Published

2024

49. Hybrid Peptide-Alkoxyamine Drugs: A Strategy for the Development of a New Family of Antiplasmodial Drugs

Author

Embo-ibouanga, Ange W., Nguyen, Michel, Paloque, Lucie, Coustets, Mathilde, Joly, Jean-patrick, Augereau, Jean-michel, Vanthuyne, Nicolas, Bikanga, Raphaël, Coquin, Naomie, Robert, Anne, Audran, Gérard, Boissier, Jérôme, Mellet, Philippe, Benoit-vical, Françoise, Marquer, Sylvain R.a., Embo-ibouanga, Ange W., Nguyen, Michel, Paloque, Lucie, Coustets, Mathilde, Joly, Jean-patrick, Augereau, Jean-michel, Vanthuyne, Nicolas, Bikanga, Raphaël, Coquin, Naomie, Robert, Anne, Audran, Gérard, Boissier, Jérôme, Mellet, Philippe, Benoit-vical, Françoise, and Marquer, Sylvain R.a.

Abstract

The emergence and spread of drug-resistant Plasmodium falciparum parasites shed a serious concern on the worldwide control of malaria, the most important tropical disease in terms of mortality and morbidity. This situation has led us to consider the use of peptide-alkoxyamine derivatives as new antiplasmodial prodrugs that could potentially be efficient in the fight against resistant malaria parasites. Indeed, the peptide tag of the prodrug has been designed to be hydrolysed by parasite digestive proteases to afford highly labile alkoxyamines drugs, which spontaneously and instantaneously homolyse into two free radicals, one of which is expected to be active against P. falciparum. Since the parasite enzymes should trigger the production of the active drug in the parasite’s food vacuoles, our approach is summarized as “to dig its grave with its fork”. However, despite promising sub-micromolar IC50 values in the classical chemosensitivity assay, more in-depth tests evidenced that the anti-parasite activity of these compounds could be due to their cytostatic activity rather than a truly anti-parasitic profile, demonstrating that the antiplasmodial activity cannot be based only on measuring antiproliferative activity. It is therefore imperative to distinguish, with appropriate tests, a genuinely parasiticidal activity from a cytostatic activity.

Published

2024

50. Exploring the Design Space of Antifungal Peptides

Author

Kikhwa, Miryam and Kikhwa, Miryam

Published

2024