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1.
J Virol ; 91(23)2017 12 01.
Artigo em Inglês | MEDLINE | ID: mdl-28956767

RESUMO

The herpes simplex virus (HSV) type I alkaline nuclease, UL12, has 5'-to-3' exonuclease activity and shares homology with nucleases from other members of the Herpesviridae family. We previously reported that a UL12-null virus exhibits a severe defect in viral growth. To determine whether the growth defect was a result of loss of nuclease activity or another function of UL12, we introduced an exonuclease-inactivating mutation into the viral genome. The recombinant virus, UL12 D340E (the D340E mutant), behaved identically to the null virus (AN-1) in virus yield experiments, exhibiting a 4-log decrease in the production of infectious virus. Furthermore, both viruses were severely defective in cell-to-cell spread and produced fewer DNA-containing capsids and more empty capsids than wild-type virus. In addition, DNA packaged by the viral mutants was aberrant, as determined by infectivity assays and pulsed-field gel electrophoresis. We conclude that UL12 exonuclease activity is essential for the production of viral DNA that can be packaged to produce infectious virus. This conclusion was bolstered by experiments showing that a series of natural and synthetic α-hydroxytropolones recently reported to inhibit HSV replication also inhibit the nuclease activity of UL12. Taken together, our results demonstrate that the exonuclease activity of UL12 is essential for the production of infectious virus and may be considered a target for development of antiviral agents.IMPORTANCE Herpes simplex virus is a major pathogen, and although nucleoside analogs such as acyclovir are highly effective in controlling HSV-1 or -2 infections in immunocompetent individuals, their use in immunocompromised patients is complicated by the development of resistance. Identification of additional proteins essential for viral replication is necessary to develop improved therapies. In this communication, we confirm that the exonuclease activity of UL12 is essential for viral replication through the analysis of a nuclease-deficient viral mutant. We demonstrate that the exonuclease activity of UL12 is essential for the production of viral progeny and thus provides an attractive, druggable enzymatic target.


Assuntos
Desoxirribonucleases/metabolismo , Herpesvirus Humano 1/patogenicidade , Mutação , Proteínas Virais/metabolismo , Montagem de Vírus , Animais , Capsídeo/metabolismo , Chlorocebus aethiops , Replicação do DNA , Desoxirribonucleases/química , Desoxirribonucleases/genética , Herpesvirus Humano 1/metabolismo , Herpesvirus Humano 1/fisiologia , Humanos , Células Vero , Proteínas Virais/química , Proteínas Virais/genética , Replicação Viral
2.
J Virol ; 89(1): 443-53, 2015 Jan.
Artigo em Inglês | MEDLINE | ID: mdl-25320327

RESUMO

UNLABELLED: During DNA encapsidation, herpes simplex virus 1 (HSV-1) procapsids are converted to DNA-containing capsids by a process involving activation of the viral protease, expulsion of the scaffold proteins, and the uptake of viral DNA. Encapsidation requires six minor capsid proteins (UL6, UL15, UL17, UL25, UL28, and UL33) and one viral protein, UL32, not found to be associated with capsids. Although functions have been assigned to each of the minor capsid proteins, the role of UL32 in encapsidation has remained a mystery. Using an HSV-1 variant containing a functional hemagglutinin-tagged UL32, we demonstrated that UL32 was synthesized with true late kinetics and that it exhibited a previously unrecognized localization pattern. At 6 to 9 h postinfection (hpi), UL32 accumulated in viral replication compartments in the nucleus of the host cell, while at 24 hpi, it was additionally found in the cytoplasm. A newly generated UL32-null mutant was used to confirm that although B capsids containing wild-type levels of capsid proteins were synthesized, these procapsids were unable to initiate the encapsidation process. Furthermore, we showed that UL32 is redox sensitive and identified two highly conserved oxidoreductase-like C-X-X-C motifs that are essential for protein function. In addition, the disulfide bond profiles of the viral proteins UL6, UL25, and VP19C and the viral protease, VP24, were altered in the absence of UL32, suggesting that UL32 may act to modulate disulfide bond formation during procapsid assembly and maturation. IMPORTANCE: Although functions have been assigned to six of the seven required packaging proteins of HSV, the role of UL32 in encapsidation has remained a mystery. UL32 is a cysteine-rich viral protein that contains C-X-X-C motifs reminiscent of those in proteins that participate in the regulation of disulfide bond formation. We have previously demonstrated that disulfide bonds are required for the formation and stability of the viral capsids and are also important for the formation and stability of the UL6 portal ring. In this report, we demonstrate that the disulfide bond profiles of the viral proteins UL6, UL25, and VP19C and the viral protease, VP24, are altered in cells infected with a newly isolated UL32-null mutant virus, suggesting that UL32 acts as a chaperone capable of modulating disulfide bond formation. Furthermore, these results suggest that proper regulation of disulfide bonds is essential for initiating encapsidation.


Assuntos
Dissulfetos/metabolismo , Herpesvirus Humano 1/fisiologia , Proteínas Virais/metabolismo , Montagem de Vírus , Animais , Chlorocebus aethiops , Deleção de Genes , Perfilação da Expressão Gênica , Herpesvirus Humano 1/genética , Células Vero , Proteínas Virais/genética
3.
Structure ; 31(9): 1086-1099.e6, 2023 09 07.
Artigo em Inglês | MEDLINE | ID: mdl-37473756

RESUMO

The promyelocytic leukemia protein, PML, plays a vital role in the cellular response to oxidative stress; however, the molecular mechanism of its action remains poorly understood. Here, we identify redox-sensitive sites of PML. A molecule of PML is cysteine-rich and contains three zinc-binding domains including RING, B-box1, and B-box2. Using in vitro assays, we have compared the sensitivity of the isolated RING and B-box1 domains and shown that B-box1 is more sensitive to oxidation. NMR studies of PML dynamics showed that one of the Zn-coordination sites within the B-box1 undergoes significant conformational exchange, revealing a hotspot for exposure of reactive cysteines. In agreement with the in vitro data, enhancement of the B-box1 Zn-coordination dynamics led to more efficient recruitment of PML into PML nuclear bodies in cells. Overall, our results suggest that the increased sensitivity of B-box1 to oxidative stress makes this domain an important redox-sensing component of PML.


Assuntos
Proteínas Nucleares , Zinco , Proteínas Nucleares/metabolismo , Zinco/metabolismo , Proteína da Leucemia Promielocítica/genética , Proteína da Leucemia Promielocítica/metabolismo , Sítios de Ligação , Oxirredução
4.
J Virol ; 85(17): 8616-24, 2011 Sep.
Artigo em Inglês | MEDLINE | ID: mdl-21593161

RESUMO

The herpes simplex virus 1 (HSV-1) UL6 portal protein forms a 12-subunit ring structure at a unique capsid vertex which functions as a conduit for the encapsidation of the viral genome. We have demonstrated previously that the leucine zipper region of UL6 is important for intersubunit interactions and stable ring formation (J. K. Nellissery, R. Szczepaniak, C. Lamberti, and S. K. Weller, J. Virol. 81:8868-8877, 2007). We now demonstrate that intersubunit disulfide bonds exist between monomeric subunits and contribute to portal ring formation and/or stability. Intersubunit disulfide bonds were detected in purified portal rings by SDS-PAGE under nonreducing conditions. Furthermore, the treatment of purified portal rings with dithiothreitol (DTT) resulted in the disruption of the rings, suggesting that disulfide bonds confer stability to this complex structure. The UL6 protein contains nine cysteines that were individually mutated to alanine. Two of these mutants, C166A and C254A, failed to complement a UL6 null mutant in a transient complementation assay. Furthermore, viral mutants bearing the C166A and C254A mutations failed to produce infectious progeny and were unable to cleave or package viral DNA. In cells infected with C166A or C254A, B capsids were produced which contained UL6 at reduced levels compared to those seen in wild-type capsids. In addition, C166A and C254A mutant proteins expressed in insect cells infected with recombinant baculovirus failed to form ring structures. Cysteines at positions 166 and 254 thus appear to be required for intersubunit disulfide bond formation. Taken together, these results indicate that disulfide bond formation is required for portal ring formation and/or stability and for the production of procapsids that are capable of encapsidation.


Assuntos
Dissulfetos/metabolismo , Herpesvirus Humano 1/fisiologia , Multimerização Proteica , Proteínas Virais/metabolismo , Montagem de Vírus , Substituição de Aminoácidos/genética , Animais , Linhagem Celular , Cisteína/genética , Eletroforese em Gel de Poliacrilamida , Deleção de Genes , Teste de Complementação Genética , Mutagênese Sítio-Dirigida , Estabilidade Proteica , Subunidades Proteicas/metabolismo , Proteínas Virais/química
5.
J Virol ; 85(17): 8625-34, 2011 Sep.
Artigo em Inglês | MEDLINE | ID: mdl-21697480

RESUMO

Disulfide bonds reportedly stabilize the capsids of several viruses, including papillomavirus, polyomavirus, and simian virus 40, and have been detected in herpes simplex virus (HSV) capsids. In this study, we show that in mature HSV-1 virions, capsid proteins VP5, VP23, VP19C, UL17, and UL25 participate in covalent cross-links, and that these are susceptible to dithiothreitol (DTT). In addition, several tegument proteins were found in high-molecular-weight complexes, including VP22, UL36, and UL37. Cross-linked capsid complexes can be detected in virions isolated in the presence and absence of N-ethylmaleimide (NEM), a chemical that reacts irreversibly with free cysteines to block disulfide formation. Intracellular capsids isolated in the absence of NEM contain disulfide cross-linked species; however, intracellular capsids isolated from cells pretreated with NEM did not. Thus, the free cysteines in intracellular capsids appear to be positioned such that disulfide bond formation can occur readily if they are exposed to an oxidizing environment. These results indicate that disulfide cross-links are normally present in extracellular virions but not in intracellular capsids. Interestingly, intracellular capsids isolated in the presence of NEM are unstable; B and C capsids are converted to a novel form that resembles A capsids, indicating that scaffold and DNA are lost. Furthermore, these capsids also have lost pentons and peripentonal triplexes as visualized by cryoelectron microscopy. These data indicate that capsid stability, and especially the retention of pentons, is regulated by the formation of disulfide bonds in the capsid.


Assuntos
Proteínas do Capsídeo/química , Proteínas do Capsídeo/metabolismo , Dissulfetos/metabolismo , Herpesvirus Humano 1/química , Herpesvirus Humano 1/metabolismo , Animais , Chlorocebus aethiops , Ditiotreitol/metabolismo , Etilmaleimida/metabolismo , Herpesvirus Humano 1/efeitos dos fármacos , Modelos Moleculares , Substâncias Redutoras/metabolismo , Células Vero , Vírion/ultraestrutura
6.
Artigo em Inglês | MEDLINE | ID: mdl-36498220

RESUMO

Endometriosis is a disease whose underlying cause is the growth of the endometrium outside the uterine cavity. The disease is characterised by unpleasant pain in the pelvic region, irrespective of the phase of the woman's cycle. Physiotherapy in its various forms can be an excellent complement to the gynaecological treatment of endometriosis, by virtue of reducing inflammation, alleviating pain and thus significantly improving women's quality of life. Physiotherapy in endometriosis should include kinesiotherapy, manual therapy including visceral therapy, physical therapy, spa treatment including balneotherapy, and hydrotherapy. The aim of this study is to present the use of physiotherapy as an adjunct therapy in the treatment of endometriosis. A review of the available literature in the Medline, PubMed and Google Scholar databases was performed without being limited by the time frame of available publications on the forms of physiotherapy used in the treatment of endometriosis.


Assuntos
Balneologia , Endometriose , Hidroterapia , Feminino , Humanos , Qualidade de Vida , Endometriose/terapia , Dor
7.
mBio ; 13(1): e0322621, 2022 02 22.
Artigo em Inglês | MEDLINE | ID: mdl-35073739

RESUMO

The majority of drug discovery efforts against herpesviruses have focused on nucleoside analogs that target viral DNA polymerases, agents that are associated with dose-limiting toxicity and/or a narrow spectrum of activity. We are pursuing a strategy based on targeting two-metal ion-dependent (TMID) viral enzymes. This family of enzymes consists of structurally related proteins that share common active sites containing conserved carboxylates predicted to coordinate divalent cations essential for catalysis. Compounds that target TMID enzymes, such as HIV integrase and influenza endoribonuclease, have been successfully developed for clinical use. HIV integrase inhibitors have been reported to inhibit replication of herpes simplex virus (HSV) and other herpesviruses; however, the molecular targets of their antiviral activities have not been identified. We employed a candidate-based approach utilizing several two-metal-directed chemotypes and the potential viral TMID enzymatic targets in an effort to correlate target-based activity with antiviral potency. The panel of compounds tested included integrase inhibitors, the anti-influenza agent baloxavir, three natural products previously shown to exhibit anti-HSV activity, and two 8-hydroxyquinolines (8-HQs), AK-157 and AK-166, from our in-house program. The integrase inhibitors exhibited weak overall anti-HSV-1 activity, while the 8-HQs were shown to inhibit both HSV-1 and cytomegalovirus (CMV). Target-based analysis demonstrated that none of the antiviral compounds acted by inhibiting ICP8, contradicting previous reports. On the other hand, baloxavir inhibited the proofreading exonuclease of HSV polymerase, while AK-157 and AK-166 inhibited the alkaline exonuclease UL12. In addition, AK-157 also inhibited the catalytic activity of the HSV polymerase, which provides an opportunity to potentially develop dual-targeting agents against herpesviruses. IMPORTANCE Human herpesviruses (HHVs) establish lifelong latent infections, which undergo periodic reactivation and remain a major cause of morbidity and mortality, especially in immunocompromised individuals. Currently, HHV infections are treated primarily with agents that target viral DNA polymerase, including nucleoside analogs; however, long-term treatment can be complicated by the development of drug resistance. New therapies with novel modes of action would be important not only for the treatment of resistant viruses but also for use in combination therapy to reduce dose-limiting toxicities and potentially eliminate infection. Since many essential HHV proteins are well conserved, inhibitors of novel targets would ideally exhibit broad-spectrum activity against multiple HHVs.


Assuntos
Inibidores de Integrase de HIV , Herpesviridae , Herpesvirus Humano 1 , Humanos , Antivirais/farmacologia , Nucleosídeos/farmacologia , Herpesvirus Humano 1/fisiologia , Inibidores de Integrase de HIV/farmacologia , DNA Polimerase Dirigida por DNA/genética , Exonucleases/farmacologia , Replicação Viral
8.
J Virol ; 81(17): 8868-77, 2007 Sep.
Artigo em Inglês | MEDLINE | ID: mdl-17581990

RESUMO

The herpes simplex virus type 1 UL6 protein forms a 12-subunit ring structure at a unique capsid vertex which functions as a conduit for encapsidation of the viral genome. To characterize UL6 protein domains that are involved in intersubunit interactions and interactions with other capsid proteins, we engineered a set of deletion mutants spanning the entire gene. Three deletion constructs, D-5 (Delta 198-295), D-6 (Delta 322-416), and D-LZ (Delta 409-473, in which a putative leucine zipper was removed), were introduced into the viral genome. All three mutant viruses produced only B capsids, indicating a defect in encapsidation. Western blot analysis showed that the UL6 protein was present in the capsids isolated from two mutants, D-6 and D-LZ. The protein encoded by D-5, on the other hand, was not associated with capsids and was instead localized in the cytoplasm of the infected cells, indicating that this deletion affected the nuclear transport of the portal protein. The UL6 protein from the KOS strain (wild type) and the D-6 mutant were purified from insect cells infected with recombinant baculoviruses and shown to form ring structures as assessed by sucrose gradient centrifugation and electron microscopy. In contrast, the D-LZ mutant protein formed aggregates that sedimented throughout the sucrose gradient as a heterogeneous mixture and did not yield stable ring structures. A mutant (L429E L436E) in which two of the heptad leucines of the putative zipper were replaced with glutamate residues also failed to form stable rings. Our results suggest that the integrity of the leucine zipper region is important for oligomer interactions and stable ring formation, which in turn are required for genome encapsidation.


Assuntos
Proteínas do Capsídeo/metabolismo , Proteínas do Capsídeo/fisiologia , Herpesvirus Humano 1/fisiologia , Zíper de Leucina/genética , Mapeamento de Interação de Proteínas , Montagem de Vírus/fisiologia , Transporte Ativo do Núcleo Celular , Sequência de Aminoácidos , Substituição de Aminoácidos , Animais , Capsídeo/química , Proteínas do Capsídeo/química , Núcleo Celular/metabolismo , Chlorocebus aethiops , Citoplasma/química , Insetos/citologia , Substâncias Macromoleculares/isolamento & purificação , Dados de Sequência Molecular , Mutagênese Sítio-Dirigida , Ligação Proteica , Alinhamento de Sequência , Deleção de Sequência , Células Vero , Proteínas Virais
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