Your search keyword '"Andrey A. Gorchakov"' showing total 54 results

51. Sequence-specific targeting of dosage compensation in Drosophila favors an active chromatin context.

Author

Artyom A Alekseyenko, Joshua W K Ho, Shouyong Peng, Marnie Gelbart, Michael Y Tolstorukov, Annette Plachetka, Peter V Kharchenko, Youngsook L Jung, Andrey A Gorchakov, Erica Larschan, Tingting Gu, Aki Minoda, Nicole C Riddle, Yuri B Schwartz, Sarah C R Elgin, Gary H Karpen, Vincenzo Pirrotta, Mitzi I Kuroda, and Peter J Park

Subjects

Genetics, QH426-470

Abstract

The Drosophila MSL complex mediates dosage compensation by increasing transcription of the single X chromosome in males approximately two-fold. This is accomplished through recognition of the X chromosome and subsequent acetylation of histone H4K16 on X-linked genes. Initial binding to the X is thought to occur at "entry sites" that contain a consensus sequence motif ("MSL recognition element" or MRE). However, this motif is only ∼2 fold enriched on X, and only a fraction of the motifs on X are initially targeted. Here we ask whether chromatin context could distinguish between utilized and non-utilized copies of the motif, by comparing their relative enrichment for histone modifications and chromosomal proteins mapped in the modENCODE project. Through a comparative analysis of the chromatin features in male S2 cells (which contain MSL complex) and female Kc cells (which lack the complex), we find that the presence of active chromatin modifications, together with an elevated local GC content in the surrounding sequences, has strong predictive value for functional MSL entry sites, independent of MSL binding. We tested these sites for function in Kc cells by RNAi knockdown of Sxl, resulting in induction of MSL complex. We show that ectopic MSL expression in Kc cells leads to H4K16 acetylation around these sites and a relative increase in X chromosome transcription. Collectively, our results support a model in which a pre-existing active chromatin environment, coincident with H3K36me3, contributes to MSL entry site selection. The consequences of MSL targeting of the male X chromosome include increase in nucleosome lability, enrichment for H4K16 acetylation and JIL-1 kinase, and depletion of linker histone H1 on active X-linked genes. Our analysis can serve as a model for identifying chromatin and local sequence features that may contribute to selection of functional protein binding sites in the genome.

Published

2012

52. Comparative Pre-Clinical Analysis of CD20-Specific CAR T Cells Encompassing 1F5-, Leu16-, and 2F2-Based Antigen-Recognition Moieties.

Author

Belovezhets T, Kulemzin S, Volkova O, Najakshin A, Taranin A, and Gorchakov A

Subjects

Animals, Humans, Mice, Cytotoxicity, Immunologic, T-Lymphocytes immunology, Antigens, CD20, Immunotherapy, Adoptive methods

Abstract

Over the past decade, CAR T cell therapy for patients with B cell malignancies has evolved from an experimental technique to a clinically feasible option. To date, four CAR T cell products specific for a B cell surface marker, CD19, have been approved by the FDA. Despite the spectacular rates of complete remission in r/r ALL and NHL patients, a significant proportion of patients still relapse, frequently with the CD19 low/negative tumor phenotype. To address this issue, additional B cell surface molecules such as CD20 were proposed as targets for CAR T cells. Here, we performed a side-by-side comparison of the activity of CD20-specific CAR T cells based on the antigen-recognition modules derived from the murine antibodies, 1F5 and Leu16, and from the human antibody, 2F2. Whereas CD20-specific CAR T cells differed from CD19-specific CAR T cells in terms of subpopulation composition and cytokine secretion, they displayed similar in vitro and in vivo potency.

Published

2023

53. Horses for Courses in the Era of CARs: Advancing CAR T and CAR NK Cell Therapies.

Author

Kulemzin S, Evsyukov I, Belovezhets T, Taranin A, and Gorchakov A

Abstract

The adoptive transfer of allogeneic CAR NK cells holds great promise as an anticancer modality due to the relative ease of manufacturing and genetic modification of NK cells, which translates into affordable pricing. Compared to the pronounced efficacy of CAR T cell therapy in the treatment of B cell malignancies, rigorous clinical and preclinical assessment of the antitumor properties of CAR NK cells has been lagging behind. In this brief review, we summarize the biological features of NK cells that may help define the therapeutic niche of CAR NK cells as well as create more potent NK cell-based anticancer products. In addition, we compare T cells and NK cells as the carriers of CARs using the data of single-cell transcriptomic analysis.

Published

2021

54. Sex-specific phenotypes of histone H4 point mutants establish dosage compensation as the critical function of H4K16 acetylation in Drosophila .

Author

Copur Ö, Gorchakov A, Finkl K, Kuroda MI, and Müller J

Subjects

Acetylation, Animals, Drosophila Proteins genetics, Drosophila melanogaster genetics, Female, Histone Acetyltransferases metabolism, Histones metabolism, Lysine genetics, Male, Nuclear Proteins metabolism, Nucleosomes metabolism, Phenotype, Point Mutation genetics, Protein Processing, Post-Translational genetics, Sex, Sex Factors, Transcription Factors metabolism, X Chromosome metabolism, Dosage Compensation, Genetic genetics, Histones genetics

Abstract

Acetylation of histone H4 at lysine 16 (H4K16) modulates nucleosome-nucleosome interactions and directly affects nucleosome binding by certain proteins. In Drosophila , H4K16 acetylation by the dosage compensation complex subunit Mof is linked to increased transcription of genes on the single X chromosome in males. Here, we analyzed Drosophila containing different H4K16 mutations or lacking Mof protein. An H4K16A mutation causes embryonic lethality in both sexes, whereas an H4K16R mutation permits females to develop into adults but causes lethality in males. The acetyl-mimic mutation H4K16Q permits both females and males to develop into adults. Complementary analyses reveal that males lacking maternally deposited and zygotically expressed Mof protein arrest development during gastrulation, whereas females of the same genotype develop into adults. Together, this demonstrates the causative role of H4K16 acetylation by Mof for dosage compensation in Drosophila and uncovers a previously unrecognized requirement for this process already during the onset of zygotic gene transcription., Competing Interests: The authors declare no conflict of interest., (Copyright © 2018 the Author(s). Published by PNAS.)

Published

2018