Carruthers BM, van de Sande MI, De Meirleir KL, Klimas NG, Broderick G, Mitchell T, Staines D, Powles ACP, Speight N, Vallings R, Bateman L, Baumgarten-Austrheim B, Bell DS, Carlo-Stella N, Chia J, Darragh A, Jo D, Lewis D, Light AR, Marshall-Gradisbik S, Mena I, Mikovits JA, Murovska M, Pall ML, Stevens S (Independent, Vancouver, BC, Canada; Independent, Calgary, AB, Canada; Department of Physiology and Medicine, Vrije University of Brussels, Himmunitas Foundation, Brussels, Belgium; Department of Medicine,University of Miami Miller School of Medicine and Miami Veterans Affairs Medical Center, Miami, FL, USA; Department of Medicine, University of Alberta, Edmonton, AB, Canada; Honorary Consultant for NHS at Peterborough/Cambridge, Lowestoft, Suffolk, UK; Gold Coast Public Health Unit, Southport, Queensland; Health Sciences and Medicine, Bond University, Robina, Queensland, Australia; Faculty of Health Sciences, McMaster University and St Joseph’s Healthcare Hamilton, Hamilton, ON, Canada; Independent, Durham, UK; Howick Health and Medical Centre, Howick, New Zealand; Fatigue Consultation Clinic, Salt Lake Regional Medical Center; Internal Medicine, Family Practice, University of Utah, Salt Lake City, UT, USA; ME/CFS Center, Oslo University Hospital HF, Norway; Department of Paediatrics, State University of New York, Buffalo, NY; Independent, Pavia, Italy; Harbor-UCLA Medical Center, University of California, Los Angeles, CA; EV Med Research, Lomita, CA, USA; University of Limerick, Limerick, Ireland; Pain Clinic, Konyang University Hospital, Daejeon, Korea; Donvale Specialist Medical Centre, Donvale, Victoria, Australia; Departments or Anesthesiology, Neurobiology and Anatomy, University of Utah, Salt Lake City, Utah, USA; Health Sciences and Medicine, Bond University, Robina, Queensland, Australia; Department of Medicina Nuclear, Clinica Las Condes, Santiago, Chile; Whittemore Peterson Institute, University of Nevada, Reno, NV, USA; Miwa Naika Clinic, Toyama, Japan; A. Kirchenstein Institute of Microbiology and Virology, Riga Stradins University, Riga, Latvia; Department of Biochemistry & Basic Medical Sciences, Washington State University, Portland, OR; Department of Sports Sciences, University of the Pacific, Stockton, CA USA). Myalgic encephalomyelitis: International Consensus Criteria (Review). J Intern Med 2011; 270: 327–338.The label ‘chronic fatigue syndrome’ (CFS) has persisted for many years because of the lack of knowledge of the aetiological agents and the disease process. In view of more recent research and clinical experience that strongly point to widespread inflammation and multisystemic neuropathology, it is more appropriate and correct to use the term ‘myalgic encephalomyelitis’ (ME) because it indicates an underlying pathophysiology. It is also consistent with the neurological classification of ME in the World Health Organization’s International Classification of Diseases (ICD G93.3). Consequently, an International Consensus Panel consisting of clinicians, researchers, teaching faculty and an ...
Viral Link to Chronic Fatigue Chronic fatigue syndrome (CFS) is a complex and debilitating disorder that is often linked to immune system dysfunction but whose cause(s) remain mysterious. Lombardi et al. (p. 585 , published online 8 October; see the Perspective by Coffin and Stoye ) now present a tantalizing new lead. In blood samples from 101 patients with well-documented CFS, over two-thirds (68) contained DNA from a recently described human gammaretrovirus, xenotropic murine leukemia virus–related virus (XMRV), which possesses sequence similarity to a murine leukemia virus. Cell culture assays confirmed that XMRV derived from CFS patient plasma and from T and B lymphocytes was infectious. Although the correlation with CFS is striking, whether the virus plays a causal role in the disorder remains to be determined. Interestingly, nearly 4% of the 218 healthy donors tested were positive for XMRV, which suggests that this virus—whose pathogenic potential is unknown—may be present in a significant proportion of the general population.
The molecular mechanisms underlying cytokine dysregulation following human retroviral infection are not well understood. Considerable data demonstrating aberrant cytokine production from both human T-cell leukemia virus type 1 (HTLV-1)-and human immunodeficiency virus type 1 (HIV-1)-infected cells have been obtained (37,38,67). Both viruses infect CD4 ϩ T cells and monocytes/macrophages, cells which orchestrate the immune response primarily by the elaboration of cytokines. Therefore, elucidating the molecular mechanisms of cytokine dysregulation in HTLV-1-and HIV-1-infected cells is critical to understanding the mechanisms of pathogenesis of these viruses.Methylation is an epigenetic mechanism for modulation of gene expression in mammalian cells (81,83). Studies with knockout mice have demonstrated the absolute requirement for DNA methyltransferase (MTase), as homozygous mutant embryos die at mid-gestation (50). Faithful propagation of the methylation state (maintenance methylation) occurs directly after DNA replication. The process is mediated by an enzymatic methyl transfer reaction at cytosine located 5Ј to guanosine (CpG dinucleotide) residues in the unmethylated nascent DNA strand across from methylated CpG dinucleotides. Acquisition of DNA methylation at a previously unmethylated site cannot be accomplished by maintenance methylation and requires de novo methylation (48). To date, only one DNA (cytosine-5) MTase has been identified in mammalian cells (7,45,82). While this DNA MTase prefers a hemimethylated substrate, it shows both maintenance and de novo activity in vitro and in vivo (48).A substantial body of work implicates a role for altered DNA methylation patterns and regulation in the pathogenesis of cancer (3,42,46). Changes in the pattern of DNA methylation are often seen in human tumors (2,12,22,27,29). One of these changes is the aberrant methylation of normally unmethylated CpG islands in gene promoter regions and an associated decrease in expression of tumor suppressor genes such as the von Hippel-Lindau (35), p16 (36, 54), and Rb (63) genes. While it is unclear whether the observed changes in DNA methylation play a direct role in oncogenesis or whether they are the result of the transformation process, the substantial correlative data and a recent study using a combination of genetics and pharmacology to decrease levels of DNA MTase in mice (46) strongly support a causal role for aberrant methylation in the pathogenesis of some cancers.In other studies, it has been demonstrated that overexpression of murine DNA MTase is transforming for NIH 3T3 cells (79) and that levels of DNA MTase are increased in neoplastic
In contrast to other retroviruses of the oncovirinae subgroup, the primate and bovine leukemia viruses (HTLV, STLV, and BLV) encode genes in the X-region of the genome, between the env gene and the 3' long terminal repeat. In HTLV-I, two overlapping open reading frames (ORFs) in the distal half of the X-region encode tax and rex genes, while two ORFs (X-I and X-II) in the proximal half of this region potentially encode proteins designated p12(XI) (or rof) and p30(XII) (or tof). The biological functions and mechanisms of tax and rex have been studied extensively whereas the roles of the other ORFs have not yet been established. To identify possible functions for ORFs X-I and X-II, an infectious molecular clone of HTLV-I and a mutant provirus lacking these ORFs were compared with respect to virus replication, gene expression, and ability to immortalize primary T-cells. When transiently transfected into 293 cells, both intact and deleted proviruses directed the synthesis of virus mRNAs and proteins that were quantitatively and qualitatively identical. These viruses were also indistinguishable in their abilities to infect and replicate in DBS-FRhL cells, which are permissive for HTLV-I propagation. Immortalized T-cell lines were established after cell-free or coculture methods for infection of activated, human peripheral blood or cord blood lymphocytes with each of the cloned viruses. The growth kinetics, cytokine dependence, and cell surface markers of the infected T-cell cultures were similar for each provirus clone. Thus, ORFs X-I and X-II are not essential for virus infectivity, replication, gene expression, or T-cell immortalization in vitro.
Background: Flavopiridol, a flavonoid currently in cancer clinical trials, inhibits cyclin-dependent kinases (CDKs) by competitively blocking their ATP-binding pocket. However, the mechanism of action of flavopiridol as an anti-cancer agent has not been fully elucidated.
Murine leukemia viruses (MLV), including xenotropic-MLV-related virus (XMRV), have been controversially linked to chronic fatigue syndrome (CFS). To explore this issue in greater depth, we compiled coded replicate samples of blood from 15 subjects previously reported to be XMRV/MLV-positive (14 with CFS) and from 15 healthy donors previously determined to be negative for the viruses. These samples were distributed in a blinded fashion to nine laboratories which performed assays designed to detect XMRV/MLV nucleic acid, virus replication, and antibody. Only two laboratories reported evidence of XMRV/MLVs; however, replicate sample results showed disagreement and reactivity was similar among CFS subjects and negative controls. These results indicate that current assays do not reproducibly detect XMRV/MLV in blood samples and that blood donor screening is not warranted.
DNA methylation, by regulating the transcription of genes, is a major modifier of the eukaryotic genome. DNA methyltransferases (DNMTs) are responsible for both maintenance and de novo methylation. We have reported that human immunodeficiency virus type 1 (HIV-1) infection increases DNMT1 expression and de novo methylation of genes such as the gamma interferon gene in CD4؉ cells. Here, we examined the mechanism(s) by which HIV-1 infection increases the cellular capacity to methylate genes. While the RNAs and proteins of all three DNMTs (1, 3a, and 3b) were detected in Hut 78 lymphoid cells, only the expression of DNMT1 was significantly increased 3 to 5 days postinfection. This increase was observed with either wild-type HIV-1 or an integrase (IN) mutant, which renders HIV replication defective, due to the inability of the provirus to integrate into the host genome. Unintegrated viral DNA is a common feature of many retroviral infections and is thought to play a role in pathogenesis. These results indicate another mechanism by which unintegrated viral DNA affects the host. In addition to the increase in overall genomic methylation, hypermethylation and reduced expression of the p16
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