Inhibition of human immunodeficiency virus replication by nonimmunosuppressive analogs of cyclosporin A.

Analogs of the immunosuppressive cyclic undecapeptide cyclosporin A (CsA) with substitutions in positions 1, 4, 6, and/or 11 were rationally designed to possess substantially diminished or no immunosuppressive activity. When these compounds were assayed for their capacity to interfere with the replication of human immunodeficiency virus, some displayed a potent antiviral activity in newly infected cells. However, only CsA could interfere with virus replication in persistently infected cells. One CsA analog with antiviral activity costimulated the phytohemagglutinin-induced production of interleukin 2 by human lymphocytes. Human immunodeficiency virus particles from drug-exposed cells showed lower infectivity than virions from untreated cells. Thus, these nonimmunosuppressive analogs of CsA constitute a promising class of lead compounds to develop drugs for effective treatment of the acquired immunodeficiency syndrome.

Deficiency of retinoblastoma protein leads to inappropriate S-phase entry, activation of E2F-responsive genes, and apoptosis.

The retinoblastoma susceptibility gene (Rb) participates in controlling the G1/S-phase transition, presumably by binding and inactivating E2F transcription activator family members. Mouse embryonic fibroblasts (MEFs) with no, one, or two inactivated Rb genes were used to determine the specific contributions of Rb protein to cell cycle progression and gene expression. MEFs lacking both Rb alleles (Rb-/-) entered S phase in the presence of the dihydrofolate reductase inhibitor methotrexate. Two E2F target genes, dihydrofolate reductase and thymidylate synthase, displayed elevated mRNA and protein levels in Rb- MEFs. Since absence of functional Rb protein in MEFs is sufficient for S-phase entry under growth-limiting conditions, these data indicate that the E2F complexes containing Rb protein, and not the Rb-related proteins p107 and p130, may be rate limiting for the G1/S transition. Antineoplastic drugs caused accumulation of p53 in the nuclei of both Rb+/+ and Rb-/- MEFs. While p53 induction led to apoptosis in Rb-/- MEFs, Rb+/- and Rb+/+ MEFs underwent cell cycle arrest without apoptosis. These results reveal that diverse growth signals work through Rb to regulate entry into S phase, and they indicate that absence of Rb protein produces a constitutive DNA replication signal capable of activating a p53-associated apoptotic response.

Rep protein of tomato yellow leaf curl geminivirus has an ATPase activity required for viral DNA replication.

The Rep protein of geminiviruses is the sole viral protein required for their DNA replication. The amino acid sequence of Rep protein contains an NTP binding consensus motif (P-loop). Here we show that purified Rep protein of tomato yellow leaf curl virus expressed in Escherichia coli exhibits an ATPase activity in vitro. Amino acid exchanges in the P-loop sequence of Rep causes a substantial decrease or loss of the ATPase activity. In vivo, mutant viruses carrying these Rep mutations do not replicate in plant cells. These results show that ATP binding by the Rep protein of geminiviruses is required for its function in viral DNA replication.

Mitochondrial DNA replication but no nuclear DNA replication during development of Dictyostelium.

Dictyostelium discoideum cells initiate development when nutrients are depleted. DNA synthesis decreases rapidly thereafter but resumes during late aggregation, only in prespore cells. This observation has been previously interpreted as indicating progression of prespore cells through the cell cycle during development. We show that developmental DNA replication occurs only in mitochondria and not in nuclei. We also show that the prestalk morphogen known as differentiation-inducing factor 1 can inhibit mitochondrial respiration. A model is proposed for cell type divergence, based on competition to become prespores, that involves mitochondrial replication in prespore cells and reduction of mitochondrial activity in prestalk cells.

Replication protein A binds to regulatory elements in yeast DNA repair and DNA metabolism genes.

Saccharomyces cerevisiae responds to DNA damage by arresting cell cycle progression (thereby preventing the replication and segregation of damaged chromosomes) and by inducing the expression of numerous genes, some of which are involved in DNA repair, DNA replication, and DNA metabolism. Induction of the S. cerevisiae 3-methyladenine DNA glycosylase repair gene (MAG) by DNA-damaging agents requires one upstream activating sequence (UAS) and two upstream repressing sequences (URS1 and URS2) in the MAG promoter. Sequences similar to the MAG URS elements are present in at least 11 other S. cerevisiae DNA repair and metabolism genes. Replication protein A (Rpa) is known as a single-stranded-DNA-binding protein that is involved in the initiation and elongation steps of DNA replication, nucleotide excision repair, and homologous recombination. We now show that the MAG URS1 and URS2 elements form similar double-stranded, sequence-specific, DNA-protein complexes and that both complexes contain Rpa. Moreover, Rpa appears to bind the MAG URS1-like elements found upstream of 11 other DNA repair and DNA metabolism genes. These results lead us to hypothesize that Rpa may be involved in the regulation of a number of DNA repair and DNA metabolism genes.

Presence of antibodies to different subunits of replication protein A in autoimmune sera.

A human cDNA expression library was used to investigate the nature of molecules recognized by serum from a patient with Sjögren syndrome that exhibits a mixed immunofluorescence pattern and reacts with multiple components on an immunoblot. The data demonstrated that this serum contains IgG antibodies specific for the 70- and 32-kDa subunits of replication protein A (RPA; RPA-70 and RPA-32, respectively), a highly conserved multisubunit DNA binding protein. Affinity purification of serum autoantibodies demonstrated a complete lack of cross-reactivity between RPA-70 and RPA-32, suggesting a direct participation of the native protein complex in the autoimmune response in this patient. Purified anti-RPA-70 and anti-RPA-32 antibodies labeled nuclear and cytoplasmic components in an immunofluorescence assay, suggesting that RPA is present in both cellular compartments. Additional sera from 55 patients with different autoimmune conditions were screened against purified RPA-70 and RPA-32 recombinant proteins. One of these 55 sera was positive and reacted with only RPA-32. Twenty sera from healthy control individuals did not react with RPA. These results show that RPA is a target for autoantibodies in human autoimmune diseases, although its precise frequency, occurrence in other autoimmune diseases, and pathological significance remain to be fully elucidated.

Cellular protein kinase C isoform zeta regulates human parainfluenza virus type 3 replication.

Phosphorylation of the P proteins of nonsegmented negative-strand RNA viruses is critical for their function as transactivators of the viral RNA polymerases. Using unphosphorylated P protein of human parainfluenza virus type 3 (HPIV3) expressed in Escherichia coli, we have shown that the cellular protein kinase that phosphorylates P in vitro is biochemically and immunologically indistinguishable from cellular protein kinase C isoform zeta (PKC-zeta). Further, PKC-zeta is specifically packaged within the progeny HPIV3 virions and remains tightly associated with the ribonucleoprotein complex. The P protein seems also to be phosphorylated intracellularly by PKC-zeta, as shown by the similar protease digestion pattern of the in vitro and in vivo phosphorylated P proteins. The growth of HPIV3 in CV-1 cells is completely abrogated when a PKC-zeta-specific inhibitor pseudosubstrate peptide was delivered into cells. These data indicate that PKC-zeta plays an important role in HPIV3 gene expression by phosphorylating P protein, thus providing an opportunity to develop antiviral agents against an important human pathogen.

Replication factor encoded by a putative oncogene, set, associated with myeloid leukemogenesis.

DNA replication of the adenovirus genome complexed with viral core proteins is dependent on the host factor designated template activating factor I (TAF-I) in addition to factors required for replication of the naked genome. Recently, we have purified TAF-I as 39- and 41-kDa polypeptides from HeLa cells. Here we describe the cloning of two human cDNAs encoding TAF-I. Nucleotide sequence analysis revealed that the 39-kDa polypeptide corresponds to the protein encoded by the set gene, which is the part of the putative oncogene associated with acute undifferentiated leukemia when translocated to the can gene. The 41-kDa protein contains the same amino acid sequence as the 39-kDa protein except that short N-terminal regions differ in both proteins. Recombinant proteins, which were purified from extracts of Escherichia coli, expressing the proteins from cloned cDNAs, possessed TAF-I activities in the in vitro replication assay. A particular feature of TAF-I proteins is the presence of a long acidic tail in the C-terminal region, which is thought to be an essential part of the SET-CAN fusion protein. Studies with mutant TAF-I proteins devoid of this acidic region indicated that the acidic region is essential for TAF-I activity.

Phosphorylated and unphosphorylated forms of human single-stranded DNA-binding protein are equally active in simian virus 40 DNA replication and in nucleotide excision repair.

The trimeric human single-stranded DNA-binding protein (HSSB; also called RP-A) plays an essential role in DNA replication, nucleotide excision repair, and homologous DNA recombination. The p34 subunit of HSSB is phosphorylated at the G1/S boundary of the cell cycle or upon exposure of cells to DNA damage-inducing agents including ionizing and UV radiation. We have previously shown that the phosphorylation of p34 is catalyzed by both cyclin-dependent kinase-cyclin A complex and DNA-dependent protein kinase. In this study, we investigated the effect of phosphorylation of p34 by these kinases on the replication and repair function of HSSB. We observed no significant difference with the unphosphorylated and phosphorylated forms of HSSB in the simian virus 40 DNA replication or nucleotide excision repair systems reconstituted with purified proteins. The phosphorylation status of the p34 subunit of HSSB was unchanged during the reactions. We suggest that the phosphorylated HSSB has no direct effect on the basic mechanism of DNA replication and nucleotide excision repair reactions in vitro, although we cannot exclude a role of p34 phosphorylation in modulating HSSB function in vivo through a yet poorly understood control pathway in the cellular response to DNA damage and replication.

Rolling replication of short DNA circles.

Natural genes and proteins often contain tandemly repeated sequence motifs that dramatically increase physiological specificity and activity. Given the selective value of such repeats, it is likely that several different mechanisms have been responsible for their generation. One mechanism that has been shown to generate relatively long tandem repeats (in the kilobase range) is rolling circle replication. In this communication, we demonstrate that rolling circle synthesis in a simple enzymatic system can produce tandem repeats of monomers as short as 34 bp. In addition to suggesting possible origins for natural tandem repeats, these observations provide a facile means for constructing libraries of repeated motifs for use in "in vitro evolution" experiments designed to select molecules with defined biological or chemical properties.

In vitro cleavage and joining at the viral origin of replication by the replication initiator protein of tomato yellow leaf curl virus.

Replication of the single-stranded DNA genome of geminiviruses occurs via a double-stranded intermediate that is subsequently used as a template for rolling-circle replication of the viral strand. Only one of the proteins encoded by the virus, here referred to as replication initiator protein (Rep protein), is indispensable for replication. We show that the Rep protein of tomato yellow leaf curl virus initiates viral-strand DNA synthesis by introducing a nick in the plus strand within the nonanucleotide 1TAATATT decreases 8AC, identical among all geminiviruses. After cleavage, the Rep protein remains bound to the 5' end of the cleaved strand. In addition, we show that the Rep protein has a joining activity, suggesting that it acts as a terminase, thus resolving the nascent viral single strand into genome-sized units.

Cell cycle-regulated nuclear import and export of Cdc47, a protein essential for initiation of DNA replication in budding yeast.

The CDC47 gene was isolated by complementation of a cdc47 temperature-sensitive mutant in Saccharomyces cerevisiae and was shown to encode a predicted polypeptide, Cdc47, of 845 aa. Cdc47 belongs to the Cdc46/Mcm family of proteins, previously shown to be essential for initiation of DNA replication. Using indirect immunofluorescence microscopy and subcellular fractionation techniques, we show that Cdc47 undergoes cell cycle-regulated changes in its subcellular localization. At mitosis, Cdc47 enters the nucleus, where it remains until soon after the initiation of DNA replication, when it is rapidly exported back into the cytoplasm. Cdc47 protein levels do not vary with the cell cycle, but expression of CDC47 and nascent synthesis of Cdc47 occur late in the cell cycle, coinciding with mitosis. Together, these results show that Cdc47 is not only imported into the nucleus at the end of mitosis but is also exported back into the cytoplasm at the beginning of S phase. The observation that Cdc47 is exported from the nucleus at the beginning of S phase has important implications for how initiation of DNA replication is controlled.

A chemically diverse conducting polymer-based "electronic nose".

We describe a method for generating a variety of chemically diverse broadly responsive low-power vapor sensors. The chemical polymerization of pyrrole in the presence of plasticizers has yielded conducting organic polymer films whose resistivities are sensitive to the identity and concentration of various vapors in air. An array of such sensing elements produced a chemically reversible diagnostic pattern of electrical resistance changes upon exposure to different odorants. Principal component analysis has demonstrated that such sensors can identify and quantify different airborne organic solvents and can yield information on the components of gas mixtures.

Linfoma renale del gatto:rilievi anatomopatologici, immunofenotipizzazione delle popolazioni linfocitarie ed espressione tissutale dell'antigene virale FeLV gp70.

Riassunto Il linfoma è una delle neoplasie più diffuse nel gatto. Questa neoplasia è stata classificata in base alla localizzazione anatomica nella forma Mediastinica (che interessa il timo e/o i linfonodi mediastinici), Alimentare, Multicentrica (che interessa diversi linfonodi e/o la milza e/o il fegato, Extranodale (che coinvolge i reni, SNC o la cute). Le cellule neoplastiche sono caratterizzate da diverse sottopopolazioni, che sono definite tramite immunofenotipizzazione ottenuta mediante tecniche immunoistochimiche (IHC), così che possano essere classificate come cellule B o T o non B/non T. I gatti infetti dal virus della leucemia felina (FeLV, Gammaretrovirus) presentano elevata incidenza di linfomi rispetto ai gatti non infetti. I meccanismi proposti di sviluppo neoplastico sono mutagenesi inserzionali o stimolazione persistente delle cellule immunitarie dell’ospite da parte di antigeni virali, i quali possono promuovere la trasformazione in senso maligno dei linfociti. Lo scopo di questo lavoro è stato esaminare i rilievi patologici, l’espressione di FeLV e l’immonofenotipo (B, T, nonB/nonT) nei reni felini affetti da linfoma. Abbiamo effettuato colorazione Ematossilina- Eosina ed Immunoistochimica per FeLV gp70, CD3 e CD79. Nello studio sono stati inclusi i tessuti di 49 gatti presentati all’Unità Operativa di Anatomia Patologica e Patologia Generale del Dipartimento di Scienze Medico Veterinarie dell’Università degli studi di Parma. Il 39% dei casi (19/49) sono caratterizzati dalla presenza di lesioni linfomatose a livello renale. Questa popolazione è costituita dal 52,6% 3 (10/19) maschi e dal 47,4% (9/19) femmine. L’età è compresa tra 8 mesi e 17 anni ed in particolare 26,6% (5/19) sono giovani (0-2 anni), 47,4% (9/19) sono adulti (2-10 anni) e 26,3% (5/19) sono anziani (>10 anni). Per quanto riguarda la classificazione anatomica la forma renale appare primitiva in 5 casi (25%), in 8 casi (42%) appare secondaria a linfomi multicentrici, in 3 casi (15,7%) a linfomi mediastinici e in altri 3 casi (15,7%) a linfomi gastrici e intestinali. Per quanto riguarda l’immunofenotipizzazione sono risultati CD3 positivi il 73,7% (14/19) e CD3 negativi il 27,3% (5/19); CD79 alpha positivi il 26,3% (5/19) e CD79 alpha negativi il 73,7% (14/19); l’espressione della proteina gp70 è stata individuata nel 78,9% (15/19) delle neoplasie renali, mentre il 21,1% (4/19) non presentava espressione della proteina. Nei 4 anni presi in considerazione nello studio si evince un’elevata incidenza della localizzazione anatomica renale sul totale di linfomi osservati. Non si è notata correlazione statistica tra linfomi renali, età e sesso dei soggetti presi in esame ma vi è un’elevata percentuale di animali adulti ed anziani affetti dalla patologia. Nella valutazione fenotipica dell’infiltrato neoplastico si è osservata l’elevata espressione di CD3, caratterizzando i linfociti come appartenenti alla sottopopolazione T. Inoltre si è evidenziato come un elevato numero di cellule neoplastiche esprimano gp70; ciò permette di affermare che i linfociti neoplastici sono infettati dal virus FeLV, il quale inoltre è in attiva replicazione. I marker CD3 e gp70 sono risultati fortemente correlati statisticamente; si può affermare perciò che l’espansione clonale dei linfociti T è correlata alla presenza e replicazione del virus.

Design and synthesis of new multitarget inhibitors of dengue virus replication

Attraverso una combinazione di virtual screening/virtual library generation abbiamo identificato una nuova serie di inibitori della replicazione del virus Dengue, attivi sia su un target virale (NS5) sia su uno cellulare (Src chinasi)