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1.
J Gene Med ; 11(11): 990-1004, 2009 Nov.
Article in English | MEDLINE | ID: mdl-19757488

ABSTRACT

BACKGROUND: Many studies aimed at retargeting adenovirus (Ad) rationally focus on genetic modification of fiber, which is the primary receptor-binding protein of Ad. Retargeted fibers ultimately require functional validation in the viral context. METHODS: Lentiviral vectors (LV) were used to express fiber variants in cells. Infections with a fiber gene-deleted Ad vector yielded fiber-pseudotyped viruses. An enzyme-linked immunosorbent assay and slot blot-based assays probed target binding-ability of retargeted fibers. Differential treatments with an alkylating agent prior to western blot analysis allowed for examination of intra- and extracellular redox states of fibers. RESULTS: In the present study, LV-based fiber-pseudotyping of Ad is presented as an accelerated means to test new fibers. LV-mediated gene transfer yielded stable and uniform populations of fiber variant-expressing cells. These populations were found to effectively support fiber-pseudotyping of Ad. As a secondary objective of the study, we functionally assessed a chimeric fiber harboring a tumor antigen-directed single-chain antibody fragment (scFv). This fiber was shown to trimerize and achieve a degree of binding to its antigenic target. However, its capsid incorporation ability was impaired and, moreover, it was unable to confer a detectable level of target binding upon Ad. Importantly, subsequent analyses of this fiber revealed the improper folding of its scFv constituent. CONCLUSIONS: LV-based fiber-pseudotyping was established as a convenient method for testing modified fibers for functionality within Ad particles. Furthermore, a new chimeric fiber was found to be inadequate for Ad retargeting. The folding difficulties encountered for this particular fiber might be generally inherent to the use (i.e. for genetic Ad capsid incorporation) of complex, disulfide bridge-containing natural ligands.


Subject(s)
Adenoviridae/genetics , Genetic Vectors/genetics , Lentivirus/genetics , Transduction, Genetic , Adenoviridae/metabolism , Cells, Cultured , Gene Transfer Techniques , Genetic Vectors/metabolism , Lentivirus/metabolism , Single-Chain Antibodies/genetics , Single-Chain Antibodies/immunology
2.
Chromosoma ; 118(4): 501-12, 2009 Aug.
Article in English | MEDLINE | ID: mdl-19458957

ABSTRACT

The establishment of sex-specific epigenetic marks during gametogenesis is one of the key feature of genomic imprinting. By immunocytological analysis, we thoroughly characterized the chromatin remodeling events that take place during gametogenesis in the mealybug Planococcus citri, in which an entire haploid set of (imprinted) chromosomes undergoes facultative heterochromatinization in male embryos. Building on our previous work, we have investigated the interplay of several epigenetic marks in the regulation of this genome-wide phenomenon. We characterized the germline patterns of histone modifications, Me(3)K9H3, Me(2)K9H3, and Me(3)K20H4, and of heterochromatic proteins, PCHET2 (HP1-like) and HP2-like during male and female gametogenesis. We found that at all stages in oogenesis chromatin is devoid of any detectable epigenetic marks. On the other hand, spermatogenesis is accompanied by a complex pattern of redistribution of epigenetic marks from euchromatin to heterochromatin, and vice versa. At the end of spermatogenesis, sperm heads are decorated by all the molecules we tested, except for PCHET2. However, only Me(3)K9H3 and Me(2)K9H3 are still detectable in the male pronucleus. We suggest that the histone H3 lysine 9 methylation is the signal used to establish the male-specific imprinting on the paternal genome, thus allowing it to be distinguished from the maternal genome in the developing embryo.


Subject(s)
Epigenesis, Genetic , Genomic Imprinting , Hemiptera/genetics , Spermatogenesis/genetics , Acetylation , Animals , Cell Nucleus/metabolism , Chromatin Assembly and Disassembly , Female , Hemiptera/metabolism , Hemiptera/physiology , Heterochromatin/genetics , Heterochromatin/metabolism , Histones/metabolism , Immunohistochemistry , Insect Proteins/metabolism , Lysine/metabolism , Male , Methylation , Microscopy, Fluorescence , Nuclear Proteins/metabolism , Spermatogenesis/physiology
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