Search

Your search keyword '"Lucic B"' showing total 59 results
Start Over Author "Lucic B"
59 results on '"Lucic B"'

1. Microscopy-based assay for semi-quantitative detection of SARS-CoV-2 specific antibodies in human sera

Author

Pape, C., Remme, R., Wolny, A., Olberg, S., Wolf, S., Cerrone, L., Cortese, M., Klaus, S., Lucic, B., Ullrich, S., Anders, Pape, C., Remme, R., Wolny, A., Olberg, S., Wolf, S., Cerrone, L., Cortese, M., Klaus, S., Lucic, B., Ullrich, S., and Anders

Subjects
serological test, SARS-CoV-2, antibody, quantitative microscopy, machine learning image analysi, immunofluorescence
Abstract

Emergence of the novel pathogenic coronavirus SARS-CoV-2 and its rapid pandemic spread presents challenges that demand immediate attention. Here, we describe the development of a semi-quantitative high-content microscopy-based assay for detection of three major classes (IgG, IgA, and IgM) of SARS-CoV-2 specific antibodies in human samples. The possibility to detect antibodies against the entire viral proteome together with a robust semi-automated image analysis workflow resulted in specific, sensitive and unbiased assay that complements the portfolio of SARS-CoV-2 serological assays. Sensitive, specific and quantitative serological assays are urgently needed for a better understanding of humoral immune response against the virus as a basis for developing public health strategies to control viral spread. The procedure described here has been used for clinical studies and provides a general framework for the application of quantitative high-throughput microscopy to rapidly develop serological assays for emerging virus infections.

Published
2021

2. Crowdsourced mapping of unexplored target space of kinase inhibitors

Author

Cichonska, A, Ravikumar, B, Allaway, RJ, Wan, F, Park, S, Isayev, O, Li, S, Mason, M, Lamb, A, Tanoli, Z, Jeon, M, Kim, S, Popova, M, Capuzzi, S, Zeng, J, Dang, K, Koytiger, G, Kang, J, Wells, CI, Willson, TM, Oprea, TI, Schlessinger, A, Drewry, DH, Stolovitzky, G, Wennerberg, K, Guinney, J, Aittokallio, T, Tan, M, Huang, C-H, Shih, ESC, Chen, T-M, Wu, C-H, Fang, W-Q, Chen, J-Y, Hwang, M-J, Wang, X, Ben Guebila, M, Shamsaei, B, Singh, S, Nguyen, Thin, Karimi, M, Wu, D, Wang, Z, Shen, Y, Ozturk, H, Ozkirimli, E, Ozgur, A, Lim, H, Xie, L, Kanev, GK, Kooistra, AJ, Westerman, BA, Terzopoulos, P, Ntagiantas, K, Fotis, C, Alexopoulos, L, Boeckaerts, D, Stock, M, De Baets, B, Briers, Y, Luo, Y, Hu, H, Peng, J, Dogan, T, Rifaioglu, AS, Atas, H, Atalay, RC, Atalay, V, Martin, MJ, Lee, J, Yun, S, Kim, B, Chang, B, Turu, G, Misak, A, Szalai, B, Hunyady, L, Lienhard, M, Prasse, P, Bachmann, I, Ganzlin, J, Barel, G, Herwig, R, Orsolic, D, Lucic, B, Stepanic, V, Smuc, T, Cichonska, A, Ravikumar, B, Allaway, RJ, Wan, F, Park, S, Isayev, O, Li, S, Mason, M, Lamb, A, Tanoli, Z, Jeon, M, Kim, S, Popova, M, Capuzzi, S, Zeng, J, Dang, K, Koytiger, G, Kang, J, Wells, CI, Willson, TM, Oprea, TI, Schlessinger, A, Drewry, DH, Stolovitzky, G, Wennerberg, K, Guinney, J, Aittokallio, T, Tan, M, Huang, C-H, Shih, ESC, Chen, T-M, Wu, C-H, Fang, W-Q, Chen, J-Y, Hwang, M-J, Wang, X, Ben Guebila, M, Shamsaei, B, Singh, S, Nguyen, Thin, Karimi, M, Wu, D, Wang, Z, Shen, Y, Ozturk, H, Ozkirimli, E, Ozgur, A, Lim, H, Xie, L, Kanev, GK, Kooistra, AJ, Westerman, BA, Terzopoulos, P, Ntagiantas, K, Fotis, C, Alexopoulos, L, Boeckaerts, D, Stock, M, De Baets, B, Briers, Y, Luo, Y, Hu, H, Peng, J, Dogan, T, Rifaioglu, AS, Atas, H, Atalay, RC, Atalay, V, Martin, MJ, Lee, J, Yun, S, Kim, B, Chang, B, Turu, G, Misak, A, Szalai, B, Hunyady, L, Lienhard, M, Prasse, P, Bachmann, I, Ganzlin, J, Barel, G, Herwig, R, Orsolic, D, Lucic, B, Stepanic, V, and Smuc, T

Abstract

AbstractDespite decades of intensive search for compounds that modulate the activity of particular protein targets, a large proportion of the human kinome remains as yet undrugged. Effective approaches are therefore required to map the massive space of unexplored compound–kinase interactions for novel and potent activities. Here, we carry out a crowdsourced benchmarking of predictive algorithms for kinase inhibitor potencies across multiple kinase families tested on unpublished bioactivity data. We find the top-performing predictions are based on various models, including kernel learning, gradient boosting and deep learning, and their ensemble leads to a predictive accuracy exceeding that of single-dose kinase activity assays. We design experiments based on the model predictions and identify unexpected activities even for under-studied kinases, thereby accelerating experimental mapping efforts. The open-source prediction algorithms together with the bioactivities between 95 compounds and 295 kinases provide a resource for benchmarking prediction algorithms and for extending the druggable kinome.

Published
2021

5. Spatially clustered loci with multiple enhancers are frequent targets of HIV-1 integration

Author

Lucic, B. (Bojana), Chen, H.-C. (Heng-Chang), Kuzman, M. (Maja), Zorita, E. (Eduard), Wegner, J. (Julia), Minneker, V. (Vera), Wang, W. (Wei), Fronza, R. (Raffaele), Laufs, S. (Stefanie), Schmidt, M. (Manfred), Stadhouders, R. (Ralph), Roukos, V. (Vassilis), Vlahovicek, K. (Kristian), Filion, G.J. (Guillaume J.), Lusic, M. (Marina), Lucic, B. (Bojana), Chen, H.-C. (Heng-Chang), Kuzman, M. (Maja), Zorita, E. (Eduard), Wegner, J. (Julia), Minneker, V. (Vera), Wang, W. (Wei), Fronza, R. (Raffaele), Laufs, S. (Stefanie), Schmidt, M. (Manfred), Stadhouders, R. (Ralph), Roukos, V. (Vassilis), Vlahovicek, K. (Kristian), Filion, G.J. (Guillaume J.), and Lusic, M. (Marina)

Abstract

HIV-1 recurrently targets active genes and integrates in the proximity of the nuclear pore compartment in CD4+ T cells. However, the genomic features of these genes and the relevance of their transcriptional activity for HIV-1 integration have so far remained unclear. Here we show that recurrently targeted genes are proximal to super-enhancer genomic elements and that they cluster in specific spatial compartments of the T cell nucleus. We further show that these gene clusters acquire their location during the activation of T cells. The clustering of these genes along with their transcriptional activity are the major determinants of HIV-1 integration in T cells. Our results provide evidence of the relevance of the spatial compartmentalization of the genome for HIV-1 integration, thus further strengthening the role of nuclear architecture in viral infection.

Published
2019
Full Text
View/download PDF

6. Spatially clustered loci with multiple enhancers are frequent targets of HIV-1 integration

Author

Lucic, B, Chen, HC, Kuzman, M, Zorita, E, Wegner, J, Minneker, V, Wang, W, Fronza, R, Laufs, S, Schmidt, M, Stadhouders, Ralph, Roukos, V, Vlahovicek, K, Filion, GJ, Lusic, M, Lucic, B, Chen, HC, Kuzman, M, Zorita, E, Wegner, J, Minneker, V, Wang, W, Fronza, R, Laufs, S, Schmidt, M, Stadhouders, Ralph, Roukos, V, Vlahovicek, K, Filion, GJ, and Lusic, M

Published
2019

7. Alterations of redox and iron metabolism accompany development of HIV latency

Author

Shytaj, IL, primary, Lucic, B, additional, Forcato, M, additional, Billingsley, JM, additional, Bosinger, S, additional, Stanic, M, additional, Gregoretti, F, additional, Antonelli, L, additional, Oliva, G, additional, Frese, CK, additional, Trifunovic, A, additional, Galy, B, additional, Eibl, C, additional, Silvestri, G, additional, Bicciato, S, additional, Savarino, A, additional, and Lusic, M, additional

Published
2019
Full Text
View/download PDF

9. Safety and potential impact of auranofin on the viral reservoir in HIV positive individuals under mega-ART

Author

Diaz, R.S., primary, Giron, L.B., additional, Galinskas, J., additional, Dias, D., additional, Hunter, J., additional, Tenore, S., additional, Gosuen, G., additional, Samer, S., additional, Umaki, M., additional, Shoaib Arif, M., additional, Nutini, M., additional, Luca Shytaj, I., additional, Lucic, B., additional, Lusic, M., additional, Janini, M., additional, Sucupira, M.C., additional, and Savarino, A., additional

Published
2017
Full Text
View/download PDF

14. Prediction of liquid viscosity for organic compounds by a quantitative structure-property relationship

Author

Katritzky, A.R., Chen, K., Wang, Y., Karelson, M., Lucic, B., Trinajstic, N., Suzuki, T., Schüürmann, Gerrit, Katritzky, A.R., Chen, K., Wang, Y., Karelson, M., Lucic, B., Trinajstic, N., Suzuki, T., and Schüürmann, Gerrit

Abstract

The liquid viscosity of 361 organic compounds containing C, H, N, O, S and/or halogens was investigated using a quantitative structure–property relationship (QSPR) approach. A five-descriptor equation was obtained with a squared correlation coefficient (R2) of 0.854 and a standard error (S) of 0.22 log units. The data set­was divided into three subsets and each of these was cross-validated by the model obtained from the complementary two subsets; the result indicates a high statistical robustness of the overall model. The average absolute error S2 of 0.0494 log units is small compared with the overall range of eta of 1490 mPas.

Published
2000

17. Distance-Related Indexes in the Quantitative Structure−Property Relationship Modeling

Author

Lucic, B., Lukovits, I., Nikolic, S., and Trinajstic, N.

Abstract

A comparative study of structure−boiling point modeling for a set of 180 acyclic and cyclic hydrocarbons (DS-180) and two of its subsets (one containing a selection of 76 acyclic and cyclic alkanes (DS-76), and the other containing 104 (DS-104) mono- and polycyclic butanes through octanes) using several known and novel distance-related indices is reported. The distance-related indices used were as follows:  Wiener index, hyper-Wiener index, detour index, hyper-detour index, Harary index, Pasaréti index, Vérhalom index, Wiener-sum index, inverse Wiener-sum index and the product-form version of the Wiener index. Additional indices used were the total number of paths, the Hosoya Z index, the total walk count index, the number of carbon atoms, and the number of rings in the hydrocarbon. The best models for predicting the boiling points of 76, 104, and 180 acyclic and cyclic alkanes contain the natural logarithm of the cross-products of the Hosoya and detour index and of the Pasaréti index and the number of rings. This result extends earlier work by us2,7 and Rücker and Rücker8 on the use of the Wiener, detour, and Hosoya indices in modeling boiling points of alkanes and cycloalkanes. It also supports later work by Rücker and Rücker9 on the use of the descriptor combination for the same purpose.

Published
2001

19. Nonlinear Multivariate Regression Outperforms Several Concisely Designed Neural Networks on Three QSPR Data Sets

Author

Lucic, B., Amic, D., and Trinajstic, N.

Abstract

Neural networks (NNs) are accepted as the most powerful nonlinear technique in QSAR and QSPR modeling. However, the NN models are often very robust, containing a large number of parameters optimized during the training procedure. We have recently found (J. Chem. Inf. Comput. Sci. 1999, 39, 121−132) that the simpler nonlinear multiregression (MR) models are significantly better than the robust NNs, according to the same statistical parameters. In the present paper we investigated whether the nonlinear MR models are also better than the concisely designed NN models. Nonlinear MR models were generated in the following way. First, nonlinear terms, the 2-fold and 3-fold cross-products of initial descriptors, were calculated and added to initial descriptors. Then, the combination of two powerful techniques for descriptor selection (CROMRsel for “the best” selection and CROMRiisel for approximative, “i by i” stepwise selection) were used to detect the most important descriptors in MR models. For boiling points (BPs) of 150 alkanes the 20-descriptor MR model produced the cross-validated (CV) standard error of 2.88 K, and the best NN model (with 70−80 adjusted weights) had 3.60 K. Prediction of BPs of 50 compounds using the 17-descriptor MR model (obtained on 100 compounds) gave the standard error of 3.58 K. In the case of modeling of 243 chemical shifts CV standard errors were (in ppm) 0.89 and 1.19 with 15- and 9-descriptor MR models, respectively. The best NN models adjusted 60−90 weights and achieved 1.42 ppm. The standard error in predicting the 83 chemical shifts using the 10-descriptor MR model obtained on 160 samples was 1.25 ppm. It is also shown in this data set that the model quality depends on the scaling procedure used for transformation of the initial descriptors. In modeling the sublimation enthalpy the CV correlation coefficient was 0.97 using the best 4-descriptor MR model versus 0.93 obtained using NN with ~50 adjusted weights. The CV correlation coefficient in predicting the sublimation enthalpies for 21 compounds using the 4-descriptor MR model was 0.98. This is, to our knowledge, the first unambiguous result which shows a way for obtaining nonlinear MR models having better fitted, cross-validated, and predictive performances than the corresponding NN models. Moreover, the nonlinear MR models are significantly simpler than the NN models, which allows one to establish the functional relationships between the modeled property/activity and descriptors.

Published
2000

21. Prediction of pK Values, Half-Lives, and Electronic Spectra of Flavylium Salts from Molecular Structure

Author

Amic, D., Davidovic-Amic, D., Beslo, D., Lucic, B., and Trinajstic, N.

Abstract

Simple QSAR/QSPR models have been developed which enable the prediction of the pK values and half-lives of flavylium salts as a function of their molecular descriptors. On the basis of these results, as well as calculated UV−vis spectra, flavylium salt model structures are proposed, which are expected to be useful as potential food dyes.

Published
1999

22. A New Efficient Approach for Variable Selection Based on Multiregression:  Prediction of Gas Chromatographic Retention Times and Response Factors

Author

Lucic, B., Trinajstic, N., Sild, S., Karelson, M., and Katritzky, A. R.

Abstract

The selection of the most relevant variable is a frequent problem in the analysis of chemical data, especially now considering the large amounts of data created by the increased computer power and analytical resolution. A novel procedure for variable selection based on multiregression (MR) analysis is developed and applied to the quantitative structure−property relationship (QSPR) modeling of gas chromatographic retention times tR and Dietz response factors RF on 152 diverse chemical compounds. Using 296 descriptors generated by the CODESSA program, “absolutely the best” linear MR models containing from 1 to 5 descriptors were first selected (~2 × 1010 models were checked), and then “the best” linear stepwise MR models with six and seven descriptors were obtained through “i by i” stepwise selection. In this paper i was varied from 1 to 4, so that in each next step i descriptors were added to the previously selected descriptors. Nonlinear models were developed by the inclusion of cross-products of initial descriptors. We selected as the most important descriptors for tR the number of C−H and C−X bonds, connectivity indices of order 3, the highest normal mode vibrational frequency, and the rotational entropy of the molecule at 300 K. In the case of RF modeling the most important descriptors are those related to the relative number and weight of effective C atoms, the orbital electronic population, and the bond order and valency of C and H atoms. Comparison with the best six-descriptor models obtained by the normal CODESSA procedure shows that nonlinear seven-descriptor MR models now obtained achieve 30% (0.3520 vs 0.5032) and 12% (0.0472 vs 0.0530) less standard errors of estimate for tR and RF, respectively. Our novel procedure of selecting a small number of the most important descriptors from a data set allows us to extract a larger amount of useful information than with the procedure implemented in CODESSA. Thus, our new procedure enables the selection of the best possible MR models from 1010 possibilities. Through the introduction of cross-product terms, we obtained nonlinear MR models which are superior to the corresponding linear models.

Published
1999

23. Multivariate Regression Outperforms Several Robust Architectures of Neural Networks in QSAR Modeling

Author

Lucic, B. and Trinajstic, N.

Abstract

In the past decade, many authors replaced multivariate regression (MR) by the neural networks (NNs) algorithm because they believed the latter to be superior. To verify this, we have undertaken a comparative investigation of the relationship between biological activities and substituent constants representing physicochemical parameters of the substituent groups of 37 carboquinones and 57 benzodiazepines using MR and NNs. A new method for the selection of descriptors in the best possible MR models is presented. The use of orthogonalization procedure makes the calculation of the statistical parameters (e.g. correlation coefficient, R) for each model much simpler, and the selection of the best MR models is accelerated. Such a procedure is applicable to QSAR modeling even for the selection of the best MR model with six descriptors from a set of 100 descriptors. In case one wants to select, for example, the best 15 out of 100 descriptors, a new procedure is developed for the stepwise selection of descriptors in MR models. Using this procedure, we selected not only one (which was the case in the old stepwise MR procedure) but two, three, or more new descriptors in each subsequent step and added them to descriptors selected up to the previous step. The same data sets were previously investigated by several (mainly robust) NN algorithms which contained a hidden layer (Aoyama, T. et al. J. Med. Chem. 1990, 33, 2583−2590; Peterson, K. L. J. Chem. Inf. Comput. Sci. 1995, 35, 896−904; Tetko, I. V. J. Chem. Inf. Comput. Sci. 1996, 36, 794−803), and the authors have concluded that NNs models are better than MR models. These NNs are mainly robust, i.e., contain a large number of connections, and consequently, there are many parameters (weights) that should be optimized. Since it is well-known that NNs with hidden layers take into account nonlinear operations, for a strict comparison between NNs and MR the initial descriptors set used for obtaining MR models should include also nonlinearities. This was done by enlarging the initial descriptor set by including squares and cross-products of initial descriptors. After that, a systematic comparison between MR and this specific architectures of NNs was carried out on seven QSAR models, and MR models were superior in all studied cases.

Published
1999

24. The Vertex-Connectivity Index Revisited

Author

Amic, D., Beslo, D., Lucic, B., Nikolic, S., and Trinajstic, N.

Abstract

We report a search for optimum molecular descriptors based on the connectivity index. A suggestion made by several authors that the exponent −0.5 used in the standard formula for computing the connectivity index may not be the optimum for modeling some molecular properties was reexamined. We considered several molecular properties and found that in most cases the optimum value of the exponent is indeed different from −0.5. We suggest that a modified version of the (valence) vertex-connectivity index should be routinely employed in the structure−property modeling instead of the standard version of the index.

Published
1998

25. QSAR of Flavylium Salts as Inhibitors of Xanthine Oxidase

Author

Amic, D., Davidovic-Amic, D., Beslo, D., Lucic, B., and Trinajstic, N.

Abstract

A simple QSAR model of xanthine oxidase (XO) inhibitory flavylium salts, which enables prediction of the inhibitory potency of anthocyanidins as a function of their molecular properties, has been developed. The results obtained in the present work help to understand which of the several tautomeric anhydrobase species present in nearly neutral solution are mainly responsible for the inhibition of XO.

Published
1998

26. The Detour Matrix in Chemistry

Author

Trinajstic, N., Nikolic, S., Lucic, B., Amic, D., and Mihalic, Z.

Abstract

The detour matrix of a (chemical) graph is defined. The detour matrix is also defined for weighted graphs. A novel method of computing the detour matrix is introduced. Some properties of the detour matrix and the distance matrix are compared. The invariants of the detour matrix (detour polynomial, detour spectrum, and detour index) are discussed, and several methods for computing these quantities are presented. The use of the detour index is analyzed and compared to the application of the Wiener number in the structure−boiling point modeling.

Published
1997

27. The Use of the Ordered Orthogonalized Multivariate Linear Regression in a Structure−Activity Study of Coumarin and Flavonoid Derivatives as Inhibitors of Aldose Reductase

Author

Amic, D., Davidovic-Amic, D., Beslo, D., Lucic, B., and Trinajstic, N.

Abstract

The relationship between molecular descriptors and the inhibitory activity of aldose reductase (AR) for a series of coumarin and flavonoid derivatives has been investigated using a novel multivariate linear regression based on the ordered orthogonalized descriptor set. First, starting from the set of 31 descriptors we produced absolutely the best nonorthogonalized QSAR models with I descriptors (I = 1−7). These models are always better than the models that the most authors achieve by the use of the stepwise inclusion-exclusion procedure. In the next step we realized all possible orthogonalization orderings of a given set of N descriptors (there are N! of these). The key result is that some orthogonalization orderings lead to QSAR models with I ordered orthogonalized descriptors that have higher values of both the correlation coefficient R and cross-validated correlation coefficient Rcv than the corresponding models with the same number of nonorthogonalized descriptors. In order to achieve the highest possible reliability in predicting the inhibition we produced several models that were obtained applying the ordered orthogonalization procedure on one set with five (N = 5) and on two sets with seven (N = 7) descriptors. Then the inhibitory activity for 34 coumarins and 30 flavonoids was predicted, and several compounds were detected with a very high inhibitory activity.

Published
1997

29. Analysis of the Environmental Sustainability of the Adhesive Technology

Author

Lučić Blagojević, S., Krobot, I., Buhin, Z., and Jović, M.

Subjects
environmental sustainability, adhesive technology, Chemistry, QD1-999
Abstract

The most important factors that influence the sustainability of the adhesive technology are the sources of raw materials, energy consumption in the production process, and impact on environmental pollution. The usual formulation of the adhesive contains base polymer component derived mostly from non-renewable sources of oil and various other additives, and in some types of adhesives the liquid media are organic solvents or water. The environmental sustainability of the adhesive technology depends on the justification of the choice of raw material and additives, and especially today, the decreasing fraction of organic solvents in the formulations.This paper presents an analysis of production and shares of certain types of adhesives, depending on the polymer component in Western Europe in comparison with the production program of Croatian small-medium manufacturer Metakem d. o. o., Ludbreg.From the comparison of the presented data for the factory Metakem and the Western European market (Fig. 1), it is evident that Metakem’s manufacturing program includes products for almost all major market segments that use adhesives. Differences in the percentage share reflects Metakem production capability, but also the demand for some types of glue on the local market. From the data presented, it is evident that adhesives have a very wide application and occupy an important position in many other industries. Hence, the sustainability of the adhesive technology isextremely important.Considering the origin of raw polymer materials in Metakem production program, as well as in the Western European market (Fig. 2), the analysis has revealed that most of the adhesives product range is based on synthetic polymeric materials obtained from non-renewable sources of oil. Thus, today’s bioadhesives research topics are focused on finding new sources of polymer materials based on natural raw materials, which can meet the appropriate quality requirements compared with those achieved by adhesive formulations based on synthetic polymers.An important criterion of environmental sustainability is the lower content of volatile organic compounds in the adhesive. Compared to the Western European market, it is evident that solvent- based adhesives are still an essential part of Metakem’s production program (Fig. 3). Based on the characteristics of the solvents used in adhesive formulations at Metakem (Table 1) it can be concluded that they are not harmful to the environment in terms of negative impact on the ozone layer or bioaccumulation. However, all the solvents in high concentrations or prolonged inhalation may seriously endanger human health, and therefore special attention is required when these solvents are used in adhesive formulations. Generally, there is an increasing trend in production of water-based adhesives in the world because of environmental acceptability and mandatory legal regulations

Published
2011

32. The FDA-Approved Drug Cobicistat Synergizes with Remdesivir to Inhibit SARS-CoV-2 Replication in Vitro and Decreases Viral Titers and Disease Progression in Syrian Hamsters

Author

Iart Luca Shytaj, Mohamed Fares, Lara Gallucci, Bojana Lucic, Mahmoud M. Tolba, Liv Zimmermann, Julia M. Adler, Na Xing, Judith Bushe, Achim D. Gruber, Ina Ambiel, Ahmed Taha Ayoub, Mirko Cortese, Christopher J. Neufeldt, Bettina Stolp, Mohamed Hossam Sobhy, Moustafa Fathy, Min Zhao, Vibor Laketa, Ricardo Sobhie Diaz, Richard E. Sutton, Petr Chlanda, Steeve Boulant, Ralf Bartenschlager, Megan L. Stanifer, Oliver T. Fackler, Jakob Trimpert, Andrea Savarino, Marina Lusic, Shytaj, I. L., Fares, M., Gallucci, L., Lucic, B., Tolba, M. M., Zimmermann, L., Adler, J. M., Xing, N., Bushe, J., Gruber, A. D., Ambiel, I., Ayoub, A. T., Cortese, M., Neufeldt, C. J., Stolp, B., Sobhy, M. H., Fathy, M., Zhao, M., Laketa, V., Diaz, R. S., Sutton, R. E., Chlanda, P., Boulant, S., Bartenschlager, R., Stanifer, M. L., Fackler, O. T., Trimpert, J., Savarino, A., and Lusic, M.

Subjects
direct-acting antiviral, Mesocricetus, drug repurposing, SARS-CoV-2, COVID-19, remdesivir, Alanine/analogs & derivatives, Antiviral Agents/pharmacology, Hepatitis C, Chronic, Viral Load, cobicistat, spike protein, COVID-19/drug therapy, Microbiology, Adenosine Monophosphate/analogs & derivatives, Cricetinae, Virology, Disease Progression, Animals, Humans, Cobicistat, Pandemics
Abstract

The lack of effective antiviral treatments against SARS-CoV-2 is a significant limitation in the fight against the COVID-19 pandemic. Single-drug regimens have so far yielded limited results, indicating that combinations of antivirals might be required, as previously seen for other RNA viruses.Combinations of direct-acting antivirals are needed to minimize drug resistance mutations and stably suppress replication of RNA viruses. Currently, there are limited therapeutic options against the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), and testing of a number of drug regimens has led to conflicting results. Here, we show that cobicistat, which is an FDA-approved drug booster that blocks the activity of the drug-metabolizing proteins cytochrome P450-3As (CYP3As) and P-glycoprotein (P-gp), inhibits SARS-CoV-2 replication. Two independent cell-to-cell membrane fusion assays showed that the antiviral effect of cobicistat is exerted through inhibition of spike protein-mediated membrane fusion. In line with this, incubation with low-micromolar concentrations of cobicistat decreased viral replication in three different cell lines including cells of lung and gut origin. When cobicistat was used in combination with remdesivir, a synergistic effect on the inhibition of viral replication was observed in cell lines and in a primary human colon organoid. This was consistent with the effects of cobicistat on two of its known targets, CYP3A4 and P-gp, the silencing of which boosted the in vitro antiviral activity of remdesivir in a cobicistat-like manner. When administered in vivo to Syrian hamsters at a high dose, cobicistat decreased viral load and mitigated clinical progression. These data highlight cobicistat as a therapeutic candidate for treating SARS-CoV-2 infection and as a potential building block of combination therapies for COVID-19. IMPORTANCE The lack of effective antiviral treatments against SARS-CoV-2 is a significant limitation in the fight against the COVID-19 pandemic. Single-drug regimens have so far yielded limited results, indicating that combinations of antivirals might be required, as previously seen for other RNA viruses. Our work introduces the drug booster cobicistat, which is approved by the FDA and typically used to potentiate the effect of anti-HIV protease inhibitors, as a candidate inhibitor of SARS-CoV-2 replication. Beyond its direct activity as an antiviral, we show that cobicistat can enhance the effect of remdesivir, which was one of the first drugs proposed for treatment of SARS-CoV-2. Overall, the dual action of cobicistat as a direct antiviral and a drug booster can provide a new approach to design combination therapies and rescue the activity of compounds that are only partially effective in monotherapy.

Published
2022

33. Genomic profiling of HIV-1 integration in microglia cells links viral integration to the topologically associated domains.

Author

Rheinberger M, Costa AL, Kampmann M, Glavas D, Shytaj IL, Sreeram S, Penzo C, Tibroni N, Garcia-Mesa Y, Leskov K, Fackler OT, Vlahovicek K, Karn J, Lucic B, Herrmann C, and Lusic M

Subjects
Microglia metabolism, CCCTC-Binding Factor metabolism, Chromatin, Genomics, Virus Integration genetics, HIV-1 genetics, HIV-1 metabolism
Abstract

HIV-1 encounters the hierarchically organized host chromatin to stably integrate and persist in anatomically distinct latent reservoirs. The contribution of genome organization in HIV-1 infection has been largely understudied across different HIV-1 targets. Here, we determine HIV-1 integration sites (ISs), associate them with chromatin and expression signatures at different genomic scales in a microglia cell model, and profile them together with the primary T cell reservoir. HIV-1 insertions into introns of actively transcribed genes with IS hotspots in genic and super-enhancers, characteristic of blood cells, are maintained in the microglia cell model. Genome organization analysis reveals dynamic CCCTC-binding factor (CTCF) clusters in cells with active and repressed HIV-1 transcription, whereas CTCF removal impairs viral integration. We identify CTCF-enriched topologically associated domain (TAD) boundaries with signatures of transcriptionally active chromatin as HIV-1 integration determinants in microglia and CD4 + T cells, highlighting the importance of host genome organization in HIV-1 infection., Competing Interests: Declaration of interests The authors declare no competing interests., (Copyright © 2023 The Author(s). Published by Elsevier Inc. All rights reserved.)

Published
2023
Full Text
View/download PDF

34. The FDA-Approved Drug Cobicistat Synergizes with Remdesivir To Inhibit SARS-CoV-2 Replication In Vitro and Decreases Viral Titers and Disease Progression in Syrian Hamsters.

Author

Shytaj IL, Fares M, Gallucci L, Lucic B, Tolba MM, Zimmermann L, Adler JM, Xing N, Bushe J, Gruber AD, Ambiel I, Taha Ayoub A, Cortese M, Neufeldt CJ, Stolp B, Sobhy MH, Fathy M, Zhao M, Laketa V, Diaz RS, Sutton RE, Chlanda P, Boulant S, Bartenschlager R, Stanifer ML, Fackler OT, Trimpert J, Savarino A, and Lusic M

Subjects
Adenosine Monophosphate analogs & derivatives, Alanine analogs & derivatives, Animals, Antiviral Agents pharmacology, Antiviral Agents therapeutic use, Cobicistat, Cricetinae, Disease Progression, Humans, Mesocricetus, Pandemics, SARS-CoV-2, Viral Load, Hepatitis C, Chronic, COVID-19 Drug Treatment
Abstract

Combinations of direct-acting antivirals are needed to minimize drug resistance mutations and stably suppress replication of RNA viruses. Currently, there are limited therapeutic options against the severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2), and testing of a number of drug regimens has led to conflicting results. Here, we show that cobicistat, which is an FDA-approved drug booster that blocks the activity of the drug-metabolizing proteins cytochrome P450-3As (CYP3As) and P-glycoprotein (P-gp), inhibits SARS-CoV-2 replication. Two independent cell-to-cell membrane fusion assays showed that the antiviral effect of cobicistat is exerted through inhibition of spike protein-mediated membrane fusion. In line with this, incubation with low-micromolar concentrations of cobicistat decreased viral replication in three different cell lines including cells of lung and gut origin. When cobicistat was used in combination with remdesivir, a synergistic effect on the inhibition of viral replication was observed in cell lines and in a primary human colon organoid. This was consistent with the effects of cobicistat on two of its known targets, CYP3A4 and P-gp, the silencing of which boosted the in vitro antiviral activity of remdesivir in a cobicistat-like manner. When administered in vivo to Syrian hamsters at a high dose, cobicistat decreased viral load and mitigated clinical progression. These data highlight cobicistat as a therapeutic candidate for treating SARS-CoV-2 infection and as a potential building block of combination therapies for COVID-19. IMPORTANCE The lack of effective antiviral treatments against SARS-CoV-2 is a significant limitation in the fight against the COVID-19 pandemic. Single-drug regimens have so far yielded limited results, indicating that combinations of antivirals might be required, as previously seen for other RNA viruses. Our work introduces the drug booster cobicistat, which is approved by the FDA and typically used to potentiate the effect of anti-HIV protease inhibitors, as a candidate inhibitor of SARS-CoV-2 replication. Beyond its direct activity as an antiviral, we show that cobicistat can enhance the effect of remdesivir, which was one of the first drugs proposed for treatment of SARS-CoV-2. Overall, the dual action of cobicistat as a direct antiviral and a drug booster can provide a new approach to design combination therapies and rescue the activity of compounds that are only partially effective in monotherapy.

Published
2022
Full Text
View/download PDF

36. Glycolysis downregulation is a hallmark of HIV-1 latency and sensitizes infected cells to oxidative stress.

Author

Shytaj IL, Procopio FA, Tarek M, Carlon-Andres I, Tang HY, Goldman AR, Munshi M, Kumar Pal V, Forcato M, Sreeram S, Leskov K, Ye F, Lucic B, Cruz N, Ndhlovu LC, Bicciato S, Padilla-Parra S, Diaz RS, Singh A, Lusic M, Karn J, Alvarez-Carbonell D, and Savarino A

Subjects
CD4-Positive T-Lymphocytes, Down-Regulation, Glycolysis, Humans, Oxidative Stress, Proteomics, Virus Activation, Virus Latency, HIV Infections, HIV-1
Abstract

HIV-1 infects lymphoid and myeloid cells, which can harbor a latent proviral reservoir responsible for maintaining lifelong infection. Glycolytic metabolism has been identified as a determinant of susceptibility to HIV-1 infection, but its role in the development and maintenance of HIV-1 latency has not been elucidated. By combining transcriptomic, proteomic, and metabolomic analyses, we here show that transition to latent HIV-1 infection downregulates glycolysis, while viral reactivation by conventional stimuli reverts this effect. Decreased glycolytic output in latently infected cells is associated with downregulation of NAD + /NADH. Consequently, infected cells rely on the parallel pentose phosphate pathway and its main product, NADPH, fueling antioxidant pathways maintaining HIV-1 latency. Of note, blocking NADPH downstream effectors, thioredoxin and glutathione, favors HIV-1 reactivation from latency in lymphoid and myeloid cellular models. This provides a "shock and kill effect" decreasing proviral DNA in cells from people living with HIV/AIDS. Overall, our data show that downmodulation of glycolysis is a metabolic signature of HIV-1 latency that can be exploited to target latently infected cells with eradication strategies., (© 2021 The Authors. Published under the terms of the CC BY 4.0 license.)

Published
2021
Full Text
View/download PDF

37. Viruses in the Nucleus.

Author

Lucic B, de Castro IJ, and Lusic M

Subjects
Animals, Cell Nucleus physiology, Gene Expression Regulation, Viral, Humans, Cell Nucleus virology, DNA Viruses physiology, RNA Viruses physiology, Virus Integration
Abstract

Viral infection is intrinsically linked to the capacity of the virus to generate progeny. Many DNA and some RNA viruses need to access the nuclear machinery and therefore transverse the nuclear envelope barrier through the nuclear pore complex. Viral genomes then become chromatinized either in their episomal form or upon integration into the host genome. Interactions with host DNA, transcription factors or nuclear bodies mediate their replication. Often interfering with nuclear functions, viruses use nuclear architecture to ensure persistent infections. Discovering these multiple modes of replication and persistence served in unraveling many important nuclear processes, such as nuclear trafficking, transcription, and splicing. Here, by using examples of DNA and RNA viral families, we portray the nucleus with the virus inside., (Copyright © 2021 Cold Spring Harbor Laboratory Press; all rights reserved.)

Published
2021
Full Text
View/download PDF

38. HIV-1 uncoating by release of viral cDNA from capsid-like structures in the nucleus of infected cells.

Author

Müller TG, Zila V, Peters K, Schifferdecker S, Stanic M, Lucic B, Laketa V, Lusic M, Müller B, and Kräusslich HG

Subjects
CD4-Positive T-Lymphocytes ultrastructure, CD4-Positive T-Lymphocytes virology, Capsid Proteins metabolism, Cell Nucleus ultrastructure, DNA, Viral genetics, DNA, Viral ultrastructure, HEK293 Cells, HIV Infections pathology, HIV Reverse Transcriptase metabolism, HIV-1 enzymology, HIV-1 genetics, HIV-1 ultrastructure, HeLa Cells, Host-Pathogen Interactions, Humans, Macrophages ultrastructure, Macrophages virology, Microscopy, Electron, Microscopy, Fluorescence, Time Factors, Cell Nucleus virology, DNA Replication, DNA, Viral biosynthesis, HIV Infections virology, HIV-1 growth & development, Virus Internalization, Virus Replication, Virus Uncoating
Abstract

HIV-1 replication commences inside the cone-shaped viral capsid, but timing, localization, and mechanism of uncoating are under debate. We adapted a strategy to visualize individual reverse-transcribed HIV-1 cDNA molecules and their association with viral and cellular proteins using fluorescence and correlative-light-and-electron-microscopy (CLEM). We specifically detected HIV-1 cDNA inside nuclei, but not in the cytoplasm. Nuclear cDNA initially co-localized with a fluorescent integrase fusion (IN-FP) and the viral CA (capsid) protein, but cDNA-punctae separated from IN-FP/CA over time. This phenotype was conserved in primary HIV-1 target cells, with nuclear HIV-1 complexes exhibiting strong CA-signals in all cell types. CLEM revealed cone-shaped HIV-1 capsid-like structures and apparently broken capsid-remnants at the position of IN-FP signals and elongated chromatin-like structures in the position of viral cDNA punctae lacking IN-FP. Our data argue for nuclear uncoating by physical disruption rather than cooperative disassembly of the CA-lattice, followed by physical separation from the pre-integration complex., Competing Interests: TM, VZ, KP, SS, MS, BL, VL, ML, BM, HK No competing interests declared, (© 2021, Müller et al.)

Published
2021
Full Text
View/download PDF

39. Microscopy-based assay for semi-quantitative detection of SARS-CoV-2 specific antibodies in human sera: A semi-quantitative, high throughput, microscopy-based assay expands existing approaches to measure SARS-CoV-2 specific antibody levels in human sera.

Author

Pape C, Remme R, Wolny A, Olberg S, Wolf S, Cerrone L, Cortese M, Klaus S, Lucic B, Ullrich S, Anders-Össwein M, Wolf S, Cerikan B, Neufeldt CJ, Ganter M, Schnitzler P, Merle U, Lusic M, Boulant S, Stanifer M, Bartenschlager R, Hamprecht FA, Kreshuk A, Tischer C, Kräusslich HG, Müller B, and Laketa V

Subjects
COVID-19 immunology, COVID-19 virology, COVID-19 Testing methods, Fluorescent Antibody Technique, High-Throughput Screening Assays, Humans, Image Processing, Computer-Assisted statistics & numerical data, Immune Sera chemistry, Machine Learning, Sensitivity and Specificity, Antibodies, Viral blood, COVID-19 diagnosis, Immunoassay, Immunoglobulin A blood, Immunoglobulin G blood, Immunoglobulin M blood, Microscopy methods, SARS-CoV-2 immunology
Abstract

Emergence of the novel pathogenic coronavirus SARS-CoV-2 and its rapid pandemic spread presents challenges that demand immediate attention. Here, we describe the development of a semi-quantitative high-content microscopy-based assay for detection of three major classes (IgG, IgA, and IgM) of SARS-CoV-2 specific antibodies in human samples. The possibility to detect antibodies against the entire viral proteome together with a robust semi-automated image analysis workflow resulted in specific, sensitive and unbiased assay that complements the portfolio of SARS-CoV-2 serological assays. Sensitive, specific and quantitative serological assays are urgently needed for a better understanding of humoral immune response against the virus as a basis for developing public health strategies to control viral spread. The procedure described here has been used for clinical studies and provides a general framework for the application of quantitative high-throughput microscopy to rapidly develop serological assays for emerging virus infections., (© 2020 The Authors. BioEssays published by Wiley Periodicals LLC.)

Published
2021
Full Text
View/download PDF

40. 3D Immuno-DNA Fluorescence In Situ Hybridization (FISH) for Detection of HIV-1 and Cellular Genes in Primary CD4 + T Cells.

Author

Lucic B, Wegner J, Stanic M, Jost KL, and Lusic M

Subjects
CD4-Positive T-Lymphocytes virology, Chromosomes, Human metabolism, Humans, CD4-Positive T-Lymphocytes metabolism, Cell Nucleus metabolism, HIV-1 isolation & purification, In Situ Hybridization, Fluorescence methods
Abstract

Fluorescence in situ hybridization (FISH) is a powerful, broadly used microscopy-based technique that leverages fluorescently labeled nucleic acid probes to detect parts of the genome inside metaphase or interphase cell nuclei. In recent years, different methodologies developed to visualize genome topology and spatial relationships between genes have gained much attention as instruments to decode the relationship between chromatin structure and function. In addition to chromosome conformation capture-based techniques, highly multiplexed forms of FISH combined with high-throughput and super-resolution microscopy are used to map and spatially define contact frequencies between different genomic regions. All these approaches have strongly contributed to our knowledge of how the human genome is packed in the cell nucleus.In this chapter, we describe detailed step-by-step protocols for 3D immuno-DNA FISH detection of genes and Human immunodeficiency virus 1 (HIV-1) provirus in primary CD4 + T cells from healthy donors, or cells infected in vitro with the virus. Our multicolor 3D-FISH technique allows, by using up to three fluorophores, visualization of spatial positioning of loci inside a 3D cell nucleus.

Published
2021
Full Text
View/download PDF

41. Spatial-Temporal Variations in Atmospheric Factors Contribute to SARS-CoV-2 Outbreak.

Author

Fronza R, Lusic M, Schmidt M, and Lucic B

Subjects
Betacoronavirus isolation & purification, COVID-19, Humans, Italy epidemiology, Models, Theoretical, Pandemics, Particulate Matter adverse effects, SARS-CoV-2, Atmosphere analysis, Coronavirus Infections epidemiology, Disease Outbreaks, Ozone analysis, Particulate Matter analysis, Pneumonia, Viral epidemiology
Abstract

The global outbreak of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection causing coronavirus disease 2019 (COVID-19) has reached over five million confirmed cases worldwide, and numbers are still growing at a fast rate. Despite the wide outbreak of the infection, a remarkable asymmetry is observed in the number of cases and in the distribution of the severity of the COVID-19 symptoms in patients with respect to the countries/regions. In the early stages of a new pathogen outbreak, it is critical to understand the dynamics of the infection transmission, in order to follow contagion over time and project the epidemiological situation in the near future. While it is possible to reason that observed variation in the number and severity of cases stems from the initial number of infected individuals, the difference in the testing policies and social aspects of community transmissions, the factors that could explain high discrepancy in areas with a similar level of healthcare still remain unknown. Here, we introduce a binary classifier based on an artificial neural network that can help in explaining those differences and that can be used to support the design of containment policies. We found that SARS-CoV-2 infection frequency positively correlates with particulate air pollutants, and specifically with particulate matter 2.5 (PM 2.5 ), while ozone gas is oppositely related with the number of infected individuals. We propose that atmospheric air pollutants could thus serve as surrogate markers to complement the infection outbreak anticipation.

Published
2020
Full Text
View/download PDF

42. Alterations of redox and iron metabolism accompany the development of HIV latency.

Author

Shytaj IL, Lucic B, Forcato M, Penzo C, Billingsley J, Laketa V, Bosinger S, Stanic M, Gregoretti F, Antonelli L, Oliva G, Frese CK, Trifunovic A, Galy B, Eibl C, Silvestri G, Bicciato S, Savarino A, and Lusic M

Subjects
Animals, Cell Line, Disease Models, Animal, HIV Infections genetics, HIV Infections metabolism, Humans, Macaca, Oxidation-Reduction, Proteolysis, Sequence Analysis, RNA, Sumoylation, Up-Regulation, Virus Latency, Gene Regulatory Networks, HIV Infections virology, HIV-1 physiology, Iron metabolism, Promyelocytic Leukemia Protein metabolism
Abstract

HIV-1 persists in a latent form during antiretroviral therapy, mainly in CD4 + T cells, thus hampering efforts for a cure. HIV-1 infection is accompanied by metabolic alterations, such as oxidative stress, but the effect of cellular antioxidant responses on viral replication and latency is unknown. Here, we show that cells survive retroviral replication, both in vitro and in vivo in SIVmac-infected macaques, by upregulating antioxidant pathways and the intertwined iron import pathway. These changes are associated with remodeling of promyelocytic leukemia protein nuclear bodies (PML NBs), an important constituent of nuclear architecture and a marker of HIV-1 latency. We found that PML NBs are hyper-SUMOylated and that PML protein is degraded via the ubiquitin-proteasome pathway in productively infected cells, before latency establishment and after reactivation. Conversely, normal numbers of PML NBs were restored upon transition to latency or by decreasing oxidative stress or iron content. Our results highlight antioxidant and iron import pathways as determinants of HIV-1 latency and support their pharmacologic inhibition as tools to regulate PML stability and impair latency establishment., (© 2020 The Authors. Published under the terms of the CC BY 4.0 license.)

Published
2020
Full Text
View/download PDF

43. Spatially clustered loci with multiple enhancers are frequent targets of HIV-1 integration.

Author

Lucic B, Chen HC, Kuzman M, Zorita E, Wegner J, Minneker V, Wang W, Fronza R, Laufs S, Schmidt M, Stadhouders R, Roukos V, Vlahovicek K, Filion GJ, and Lusic M

Subjects
Base Sequence, CD4-Positive T-Lymphocytes virology, Cell Nucleus metabolism, Cell Nucleus virology, Chromatin genetics, Chromatin virology, HIV Infections genetics, HIV Infections immunology, HIV Infections virology, HIV-1 physiology, Humans, Nuclear Pore genetics, Nuclear Pore virology, Promoter Regions, Genetic genetics, Transcription, Genetic, CD4-Positive T-Lymphocytes metabolism, Cell Nucleus genetics, Enhancer Elements, Genetic, HIV-1 genetics, Virus Integration genetics
Abstract

HIV-1 recurrently targets active genes and integrates in the proximity of the nuclear pore compartment in CD4 + T cells. However, the genomic features of these genes and the relevance of their transcriptional activity for HIV-1 integration have so far remained unclear. Here we show that recurrently targeted genes are proximal to super-enhancer genomic elements and that they cluster in specific spatial compartments of the T cell nucleus. We further show that these gene clusters acquire their location during the activation of T cells. The clustering of these genes along with their transcriptional activity are the major determinants of HIV-1 integration in T cells. Our results provide evidence of the relevance of the spatial compartmentalization of the genome for HIV-1 integration, thus further strengthening the role of nuclear architecture in viral infection.

Published
2019
Full Text
View/download PDF

44. HIV-1 nuclear import in macrophages is regulated by CPSF6-capsid interactions at the nuclear pore complex.

Author

Bejarano DA, Peng K, Laketa V, Börner K, Jost KL, Lucic B, Glass B, Lusic M, Müller B, and Kräusslich HG

Subjects
Active Transport, Cell Nucleus drug effects, Capsid drug effects, Cell Nucleus drug effects, HIV-1 drug effects, HIV-1 pathogenicity, HeLa Cells, Humans, Indoles pharmacology, Intercellular Signaling Peptides and Proteins metabolism, Macrophages drug effects, Phenylalanine analogs & derivatives, Phenylalanine pharmacology, Virus Internalization drug effects, Virus Replication drug effects, Capsid metabolism, Cell Nucleus metabolism, HIV-1 metabolism, Macrophages metabolism, Macrophages virology, Nuclear Pore Complex Proteins metabolism, mRNA Cleavage and Polyadenylation Factors metabolism
Abstract

Nuclear entry of HIV-1 replication complexes through intact nuclear pore complexes is critical for successful infection. The host protein cleavage-and-polyadenylation-specificity-factor-6 (CPSF6) has been implicated in different stages of early HIV-1 replication. Applying quantitative microscopy of HIV-1 reverse-transcription and pre-integration-complexes (RTC/PIC), we show that CPSF6 is strongly recruited to nuclear replication complexes but absent from cytoplasmic RTC/PIC in primary human macrophages. Depletion of CPSF6 or lack of CPSF6 binding led to accumulation of HIV-1 subviral complexes at the nuclear envelope of macrophages and reduced infectivity. Two-color stimulated-emission-depletion microscopy indicated that under these circumstances HIV-1 complexes are retained inside the nuclear pore and undergo CA-multimer dependent CPSF6 clustering adjacent to the nuclear basket. We propose that nuclear entry of HIV-1 subviral complexes in macrophages is mediated by consecutive binding of Nup153 and CPSF6 to the hexameric CA lattice., Competing Interests: DB, KP, VL, KB, KJ, BL, BG, ML, BM, HK No competing interests declared, (© 2019, Bejarano et al.)

Published
2019
Full Text
View/download PDF

45. Parallel targeted next generation sequencing of childhood and adult acute myeloid leukemia patients reveals uniform genomic profile of the disease.

Author

Marjanovic I, Kostic J, Stanic B, Pejanovic N, Lucic B, Karan-Djurasevic T, Janic D, Dokmanovic L, Jankovic S, Vukovic NS, Tomin D, Perisic O, Rakocevic G, Popovic M, Pavlovic S, and Tosic N

Subjects
Adult, Child, Computational Biology, Female, Humans, Leukemia, Myeloid, Acute classification, Male, Nucleophosmin, Polymerase Chain Reaction, Prognosis, Biomarkers, Tumor genetics, Genomics methods, High-Throughput Nucleotide Sequencing methods, Leukemia, Myeloid, Acute genetics, Mutation genetics, Transcriptome
Abstract

The age-specific differences in the genetic mechanisms of myeloid leukemogenesis have been observed and studied previously. However, NGS technology has provided a possibility to obtain a large amount of mutation data. We analyzed DNA samples from 20 childhood (cAML) and 20 adult AML (aAML) patients, using NGS targeted sequencing. The average coverage of high-quality sequences was 2981 × per amplicon. A total of 412 (207 cAML, 205 aAML) variants in the coding regions were detected; out of which, only 122 (62 cAML and 60 aAML) were potentially protein-changing. Our results confirmed that AML contains small number of genetic alterations (median 3 mutations/patient in both groups). The prevalence of the most frequent single gene AML associated mutations differed in cAML and aAML patient cohorts: IDH1 (0 % cAML, 5 % aAML), IDH2 (0 % cAML, 10 % aAML), NPM1 (10 % cAML, 35 % aAML). Additionally, potentially protein-changing variants were found in tyrosine kinase genes or genes encoding tyrosine kinase associated proteins (JAK3, ABL1, GNAQ, and EGFR) in cAML, while among aAML, the prevalence is directed towards variants in the methylation and histone modifying genes (IDH1, IDH2, and SMARCB1). Besides uniform genomic profile of AML, specific genetic characteristic was exclusively detected in cAML and aAML.

Published
2016
Full Text
View/download PDF

46. Connecting HIV-1 integration and transcription: a step toward new treatments.

Author

Lucic B and Lusic M

Subjects
Animals, Chromatin metabolism, Disease Reservoirs virology, Humans, HIV Infections therapy, HIV-1 genetics, HIV-1 physiology, Transcription, Genetic, Virus Integration physiology
Abstract

Thanks to the current combined antiretroviral therapy (cART), HIV-1 infection has become a manageable although chronic disease. The reason for this lies in the fact that long-lived cellular reservoirs persist in patients on cART. Despite numerous efforts to understand molecular mechanisms that contribute to viral latency, the important question of how and when latency is established remains unanswered. Related to this is the connection between HIV-1 integration and the capacity of the provirus to enter the latent state. In this review, we will give an overview of these nuclear events in the viral life cycle in the light of current therapeutic approaches, which aim to either reactivate the provirus or even excise the proviral DNA from the cellular genome., (© 2016 Federation of European Biochemical Societies.)

Published
2016
Full Text
View/download PDF

47. Gene Mutation Profiles in Primary Diffuse Large B Cell Lymphoma of Central Nervous System: Next Generation Sequencing Analyses.

Author

Todorovic Balint M, Jelicic J, Mihaljevic B, Kostic J, Stanic B, Balint B, Pejanovic N, Lucic B, Tosic N, Marjanovic I, Stojiljkovic M, Karan-Djurasevic T, Perisic O, Rakocevic G, Popovic M, Raicevic S, Bila J, Antic D, Andjelic B, and Pavlovic S

Subjects
Adult, Aged, Case-Control Studies, Female, Humans, Male, Middle Aged, Oncogene Proteins genetics, Central Nervous System Neoplasms genetics, Lymphoma, Large B-Cell, Diffuse genetics, Mutation
Abstract

The existence of a potential primary central nervous system lymphoma-specific genomic signature that differs from the systemic form of diffuse large B cell lymphoma (DLBCL) has been suggested, but is still controversial. We investigated 19 patients with primary DLBCL of central nervous system (DLBCL CNS) using the TruSeq Amplicon Cancer Panel (TSACP) for 48 cancer-related genes. Next generation sequencing (NGS) analyses have revealed that over 80% of potentially protein-changing mutations were located in eight genes (CTNNB1, PIK3CA, PTEN, ATM, KRAS, PTPN11, TP53 and JAK3), pointing to the potential role of these genes in lymphomagenesis. TP53 was the only gene harboring mutations in all 19 patients. In addition, the presence of mutated TP53 and ATM genes correlated with a higher total number of mutations in other analyzed genes. Furthermore, the presence of mutated ATM correlated with poorer event-free survival (EFS) (p = 0.036). The presence of the mutated SMO gene correlated with earlier disease relapse (p = 0.023), inferior event-free survival (p = 0.011) and overall survival (OS) (p = 0.017), while mutations in the PTEN gene were associated with inferior OS (p = 0.048). Our findings suggest that the TP53 and ATM genes could be involved in the molecular pathophysiology of primary DLBCL CNS, whereas mutations in the PTEN and SMO genes could affect survival regardless of the initial treatment approach.

Published
2016
Full Text
View/download PDF

48. Nuclear architecture dictates HIV-1 integration site selection.

Author

Marini B, Kertesz-Farkas A, Ali H, Lucic B, Lisek K, Manganaro L, Pongor S, Luzzati R, Recchia A, Mavilio F, Giacca M, and Lusic M

Subjects
Adaptor Proteins, Signal Transducing metabolism, CD4-Positive T-Lymphocytes cytology, CD4-Positive T-Lymphocytes metabolism, Cells, Cultured, Chromatin genetics, Chromatin metabolism, HIV Integrase metabolism, Half-Life, Humans, Nuclear Pore genetics, Nuclear Pore metabolism, Nuclear Pore Complex Proteins metabolism, Transcription Factors metabolism, Transcriptional Activation genetics, Cell Nucleus genetics, Cell Nucleus metabolism, Chromosome Positioning genetics, Genetic Loci genetics, HIV-1 genetics, HIV-1 physiology, Virus Integration genetics
Abstract

Long-standing evidence indicates that human immunodeficiency virus type 1 (HIV-1) preferentially integrates into a subset of transcriptionally active genes of the host cell genome. However, the reason why the virus selects only certain genes among all transcriptionally active regions in a target cell remains largely unknown. Here we show that HIV-1 integration occurs in the outer shell of the nucleus in close correspondence with the nuclear pore. This region contains a series of cellular genes, which are preferentially targeted by the virus, and characterized by the presence of active transcription chromatin marks before viral infection. In contrast, the virus strongly disfavours the heterochromatic regions in the nuclear lamin-associated domains and other transcriptionally active regions located centrally in the nucleus. Functional viral integrase and the presence of the cellular Nup153 and LEDGF/p75 integration cofactors are indispensable for the peripheral integration of the virus. Once integrated at the nuclear pore, the HIV-1 DNA makes contact with various nucleoporins; this association takes part in the transcriptional regulation of the viral genome. These results indicate that nuclear topography is an essential determinant of the HIV-1 life cycle.

Published
2015
Full Text
View/download PDF

49. Proximity to PML nuclear bodies regulates HIV-1 latency in CD4+ T cells.

Author

Lusic M, Marini B, Ali H, Lucic B, Luzzati R, and Giacca M

Subjects
Cells, Cultured, DNA, Viral metabolism, Histones metabolism, Humans, Promoter Regions, Genetic, Promyelocytic Leukemia Protein, Protein Binding, Proviruses physiology, CD4-Positive T-Lymphocytes virology, Gene Expression Regulation, Viral, HIV-1 physiology, Nuclear Proteins metabolism, Transcription Factors metabolism, Tumor Suppressor Proteins metabolism, Virus Latency
Abstract

Nuclear bodies (NBs), characterized by the presence of the promyelocytic leukemia (PML) protein, are important components of the nuclear architecture, contributing to genetic and epigenetic control of gene expression. In investigating the mechanisms mediating HIV-1 latency, we determined that silenced but transcriptionally competent HIV-1 proviruses reside in close proximity to PML NBs and that this association inhibits HIV-1 gene expression. PML binds to the latent HIV-1 promoter, which coincides with transcriptionally inactive facultative heterochromatic marks, notably H3K9me2, at the viral genome. PML degradation and NB disruption result in strong activation of viral transcription as well as release of G9a, the major methyltransferase responsible for H3K9me2, and loss of facultative heterochromatin marks from the proviral DNA. Additionally, HIV-1 transcriptional activation requires proviral displacement from PML NBs by active nuclear actin polymerization. Thus, nuclear topology and active gene movement mediate HIV-1 transcriptional regulation and have implications for controlling HIV-1 latency and eradication., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published
2013
Full Text
View/download PDF

50. Human RECQ1 promotes restart of replication forks reversed by DNA topoisomerase I inhibition.

Author

Berti M, Ray Chaudhuri A, Thangavel S, Gomathinayagam S, Kenig S, Vujanovic M, Odreman F, Glatter T, Graziano S, Mendoza-Maldonado R, Marino F, Lucic B, Biasin V, Gstaiger M, Aebersold R, Sidorova JM, Monnat RJ Jr, Lopes M, and Vindigni A

Subjects
Camptothecin pharmacology, Cell Line, DNA Topoisomerases, Type I metabolism, Humans, Poly (ADP-Ribose) Polymerase-1, Poly(ADP-ribose) Polymerases genetics, Poly(ADP-ribose) Polymerases metabolism, RecQ Helicases genetics, DNA Replication, RecQ Helicases metabolism, Topoisomerase I Inhibitors pharmacology
Abstract

Topoisomerase I (TOP1) inhibitors are an important class of anticancer drugs. The cytotoxicity of TOP1 inhibitors can be modulated by replication fork reversal through a process that requires poly(ADP-ribose) polymerase (PARP) activity. Whether regressed forks can efficiently restart and what factors are required to restart fork progression after fork reversal are still unknown. We have combined biochemical and EM approaches with single-molecule DNA fiber analysis to identify a key role for human RECQ1 helicase in replication fork restart after TOP1 inhibition that is not shared by other human RecQ proteins. We show that the poly(ADP-ribosyl)ation activity of PARP1 stabilizes forks in the regressed state by limiting their restart by RECQ1. These studies provide new mechanistic insights into the roles of RECQ1 and PARP in DNA replication and offer molecular perspectives to potentiate chemotherapeutic regimens based on TOP1 inhibition.

Published
2013
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results