Kaposi's sarcoma-associated herpesvirus (KSHV) causes Kaposi's sarcoma, primary effusion lymphoma and multicentric Castleman's disease. KSHV infection of cells produces both latent and lytic cycles of infection. In vivo, the virus is found predominantly in the latent state. In vitro, a lytic infection can be induced in KSHV-infected cells by treating with phorbol ester (TPA). However, the exact signalling events that lead to the reactivation of KSHV lytic infection are still elusive. Here, a role is demonstrated for B-Raf/MEK/ERK signalling in TPA-induced reactivation of KSHV latent infection. Inhibiting MEK/ERK signalling by using MEK-specific inhibitors decreased expression of the TPA-induced KSHV lytic-cycle gene ORF8. Transfection of BCBL-1 cells with B-Raf small interfering RNA inhibited TPA-induced KSHV lytic infection significantly. Additionally, overexpression of MEK1 induced a lytic cycle of KSHV infection in BCBL-1 cells. The significance of these findings in understanding the biology of KSHV-associated pathogenesis is discussed.
IntroductionKaposi sarcoma-associated herpesvirus/human herpesvirus 8 (KSHV/HHV-8) is the latest addition to the list of human herpesviruses. KSHV was first isolated from Kaposi sarcoma (KS) lesions in persons suffering from acquired immunodeficiency syndrome (AIDS) in 1994. 1 The cancerous conditions that are etiologically associated with KSHV are KS, primary effusion lymphoma (PEL), and multicentric Castleman disease (MCD). 2 Apart from the inflammatory cytokines (ICs)/growth factors (GFs), lytic KSHV infection plays an instrumental role in the progression of KS lesions. 3 The lytic cycle of infection is also critical for the spread of KSHV to different organs. Successful KSHV infection is characterized by both virus entry and the ability of the virus to establish latency.In our earlier study, we provided evidence to show that the overexpression of Raf specifically enhanced KSHV infection of target cells at the level of entry. 4 Regulation of Raf is crucial for the proper maintenance of cell growth, proliferation, apoptosis, and differentiation. 5 Of the 3 isoforms, B-Raf has gained a lot of focus over the last couple of years due to the detection of B-Raf somatic missense mutations in malignant melanomas (66%), colon cancers (15%), and at lower frequencies in a wide variety of human cancers. [6][7][8] The ability of Raf to regulate vascular endothelial growth factor-A (VEGF-A) has also been demonstrated. 4 In separate studies, we found VEGF-A to enhance KSHV infection of fibroblasts and epithelial cells. 9,10 Interestingly, constitutive activation of the components (Ras/Raf) of the mitogen-activated protein kinase (MAPK) pathway of signaling as well as VEGF expression has been a common feature with KSHV pathogenesis. 11,12 Hence, in this study we attempted to analyze the relationship between the expression of B-Raf and VEGF-A in KSHV-infected hematopoietic cells. We provide evidences for the existence of a Raf-dependent VEGF-A expression in KSHV-infected hematopoietic cells. Materials and methods Cell cultureHuman foreskin fibroblasts (HFFs; Clonetics, Walkersville, MD), BCBL-1, BC-1 (American Type Culture Collection [ATCC], Manassas, VA; CRL-2230), BC-2 (ATCC CRL-223), BCP-1 (ATCC CRL-2294), and BJAB cells were used in this study. Target cells were grown in either phenol red-free Dulbecco modified Eagle medium (DMEM) or RPMI medium (Invitrogen, Carlsbad, CA) containing 10% charcoal-stripped fetal bovine serum (FBS; Atlanta Biologicals, Lawrenceville, GA), L-glutamine, and antibiotics. 13,14 Dermal microvascular endothelial cells (HMVEC-Ds; CC-2543; Clonetics) were propagated in EGM MV-microvascular endothelial cell medium (Clonetics) as per standard protocols. 13 The passage numbers for HFFs and HMVEC-Ds used in this study ranged between 6 and 10, and 5 and 9, respectively. HFF/pBabePuro3, HFF/⌬B-Raf [DD] :ER, and HFF/⌬B-Raf [FF] : ER cells were cultured as per standard protocols. 4,10 -Estradiol (1 M) stimulation of these cells results in the activation of ⌬B-Raf:ER fusion proteins. 4Inhibitors PD98059 w...
Kaposi's sarcoma-associated herpesvirus (KSHV) is the latest addition to the long list of human herpesviruses. Reactivation of latent herpesvirus infections is still a mystery. It was demonstrated recently that the phorbol ester TPA was efficient in inducing a reactivation of KSHV infection in the S phase of the cell cycle. In the present study, flow cytometry-sorted, TPA-induced, KSHV-infected haematopoietic cells (BCBL-1) were used to analyse the expression profiles of cancer-related cellular genes in the S phase of the cell cycle compared with the G0/1 phase by using microarrays. Overall, the S phase of the cell cycle seems to provide KSHV with an apt environment for a productive lytic cycle of infection. The apt conditions include cellular signalling that promotes survivability, DNA replication and lipid metabolism, while blocking cell-cycle progression to M phase. Some of the important genes that were overexpressed during the S phase of the cell cycle compared with the G0/1 phase of TPA-induced BCBL-1 cells are v-myb myeloblastosis (MYBL2), protein kinase-membrane associated tyrosine/threonine 1 (PKMYT1), ribonucleotide reductase M1 polypeptide (RRM1) and peroxisome proliferator-activated receptors delta (PPARD). Inhibition of PKMYT1 expression by the use of specific short interfering RNAs significantly lowered the TPA-induced KSHV lytic cycle of infection. The significance of these and other genes in the reactivation of KSHV is discussed in the following report. Taken together, a flow cytometry-microarray-based method to study the cellular conditions critical for the reactivation of KSHV infection is reported here for the first time. INTRODUCTIONKaposi's sarcoma-associated herpesvirus (KSHV), also known as Human herpesvirus 8, is the cause of Kaposi's sarcoma, primary effusion lymphoma (PEL) and the plasmablastic variant of multicentric Castleman's disease (Chang et al., 1994). Since the discovery of KSHV in 1994, the entire virus genome has been sequenced successfully (Neipel et al., 1997;Russo et al., 1996). However, the biology of KSHV infection, with a special emphasis on the reactivation of latency, is far from being understood completely. This is in part due to the lack of a good model system to analyse changes occurring in cells that are crucial for the reactivation process.A lytic cycle of KSHV infection of BCBL-1 cells (a PELderived cell line) can be conditionally initiated by treating with 12-O-tetradecanoyl-phorbol-13-acetate (TPA) (Renne et al., 1996). In a recently published work, the effectiveness of TPA in inducing a lytic cycle of infection was analysed by using a conventional method of synchronizing cells in the G0 phase of the cell cycle by serum-starving for 24 h prior to treating with fetal bovine serum (FBS) to induce re-entry into the cell cycle. TPA was added to these cells at 0, 6, 16 and 24 h post-release from G0 block and monitored for the expression of early-lytic and late-lytic protein markers at the end of 48 h. It was determined that the S phase of the cell cycle was reached ...
Objective: Angiogenesis is defined as the formation of new blood vessels. In a recently concluded study, we identified Kaposi’s sarcoma-associated herpesvirus (KSHV)-infected cells derived from primary effusion lymphoma (PEL) to overexpress vascular endothelial growth factor (VEGF) that had the propensity to mediate tubule formation on a Matrigel, an indicator of angiogenesis. The objective of this study was to determine the receptor molecules that mediate the tubule formation induced by the supernatant derived from KSHV-infected PEL cells. Methods: The identity of receptor(s) that play a role in mediating tubule formation driven by PEL supernatant was determined by the classical in vitro angiogenesis assay conducted on a Matrigel. Results: RGD peptides, antibodies, and siRNA specific to β1 integrins significantly lowered the ability of the PEL supernatants to induce tubule formation by endothelial cells. β1 Integrins mediated tubule formation to comparable levels in endothelial cells that were incubated with supernatants derived from uninduced or TPA-induced PEL cells. Interestingly, the β1 integrins did not seem to have a major role in cellular attachment. Conclusion: We report for the first time a critical role for β1 integrins in angiogenesis supported by the supernatant from KSHV-infected PEL cells.
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