Complexity of Host Micro-RNA Response to Cytomegalovirus Reactivation After Organ Transplantation.

Human (Homo sapiens) micro-RNAs (hsa-miRNAs) regulate virus and host-gene translation, but the biological impact in patients with human cytomegalovirus (hCMV) infection is not well defined in a clinically relevant model. First, we compared hsa-miRNA expression profiles in peripheral blood mononuclear cells from 35 transplant recipients with and without CMV viremia by using a microarray chip covering 847 hsa-miRNAs. This approach demonstrated a set of 142 differentially expressed hsa-miRNAs. Next, we examined the effect of each of these miRNAs on viral growth by using human fibroblasts (human foreskin fibroblast-1) infected with the hCMV Towne strain, identifying a subset of proviral and antiviral hsa-miRNAs. miRNA-target prediction software indicated potential binding sites within the hCMV genome (e.g., hCMV-UL52 and -UL100 [UL = unique long]) and host-genes (e.g., interleukin-1 receptor, IRF1). Luciferase-expressing plasmid constructs and immunoblotting confirmed several predicted miRNA targets. Finally, we determined the expression of selected proviral and antiviral hsa-miRNAs in 242 transplant recipients with hCMV-viremia. We measured hsa-miRNAs before and after antiviral therapy and correlated hsa-miRNA expression levels to hCMV-replication dynamics. One of six antiviral hsa-miRNAs showed a significant increase during treatment, concurrent with viral decline. In contrast, six of eight proviral hsa-miRNAs showed a decrease during viral decline. Our results indicate that a complex and multitargeted hsa-miRNA response occurs during CMV replication in immunosuppressed patients. This study provides mechanistic insight and potential novel biomarkers for CMV replication.

Hcmv-miR-UL22A-5p: A Biomarker in Transplantation With Broad Impact on Host Gene Expression and Potential Immunological Implications.

Cytomegalovirus (CMV) encodes multiple microRNAs. While these have been partially characterized in vitro, their relevance to clinical CMV infection has not been evaluated. We analyzed samples from a cohort of solid organ transplant patients with CMV disease (n = 245) for viral microRNA expression. Several CMV microRNAs were readily detectable in patients with CMV disease in variable relative abundance. Expression level generally correlated with DNA viral load and the absence of viral microRNA was associated with faster viral clearance. Detection of hcmv-miR-UL22A-5p at baseline independently predicted the recurrence of CMV viremia upon discontinuation of antiviral therapy (OR 3.024, 95% CI: 1.35-6.8; p = 0.007). A combination of direct mRNA targeting by the microRNA and indirect modulation of gene expression involving isoforms of the transcriptional regulator C-MYC may be responsible for the broad effects seen in the association of gene transcripts with the RNA-induced silencing complex and in global protein expression upon hcmv-miR-UL22A-5p transfection. This novel study of in vivo viral microRNA expression profiles provides unique insight into the complexity of clinical CMV infection following transplantation. We provide evidence that viral microRNAs may have complex effects on gene expression and be associated with specific virologic and clinical outcomes, and thus could be further evaluated as biomarkers.

CCL8 and the Immune Control of Cytomegalovirus in Organ Transplant Recipients.

Monitoring of cytomegalovirus cell-mediated immunity is a promising tool for the refinement of preventative and therapeutic strategies posttransplantation. Typically, the interferon-γ response to T cell stimulation is measured. We evaluated a broad range of cytokine and chemokines to better characterize the ex vivo host-response to CMV peptide stimulation. In a cohort of CMV viremic organ transplant recipients, chemokine expression-specifically CCL8 (AUC 0.849 95% CI 0.721-0.978; p = 0.003) and CXCL10 (AUC 0.841, 95% CI 0.707-0.974; p = 0.004)-was associated with control of viral replication. In a second cohort of transplant recipients at high-risk for CMV, the presence of a polymorphism in the CCL8 promoter conferred an increased risk of viral replication after discontinuation of antiviral prophylaxis (logrank hazard ratio 3.6; 95% CI 2.077-51.88). Using cell-sorting experiments, we determined that the primary cell type producing CCL8 in response to CMV peptide stimulation was the monocyte fraction. Finally, in vitro experiments using standard immunosuppressive agents demonstrated a dose-dependent reduction in CCL8 production. Chemokines appear to be important elements of the cell-mediated response to CMV infection posttransplant, as here suggested for CCL8, and translation of this knowledge may allow for the tailoring and improvement of preventative strategies.

Analysis and clinical correlation of genetic variation in cytomegalovirus.

BACKGROUND: Cytomegalovirus (CMV) displays genetic polymorphisms in multiple genes, which may result in important virulence differences. Glycoprotein N (gN) and immediate early 1 (IE1) are key viral genes and immune targets. We aimed to characterize the molecular epidemiology of gN and IE1 genotypes in organ transplant patients with CMV disease in the context of clinical and virologic endpoints. METHODS: A total of 240 patients with CMV disease had genotyping analysis by nested polymerase chain reaction assays and sequencing using blood samples obtained at disease onset. Results were correlated with viral clearance kinetics and recurrence. RESULTS: Complex patterns of gN and IE1 genotypes were present with no clear genetic linkages. No single genotype of IE1 or gN was associated with poorer outcome. For example, different gN or IE1 genotypes had comparable baseline viral load, clearance half-lives, time to clearance, and rates of virologic recurrence. Mixed infection was present at IE1 in 15.8% and gN in 21.9%, but analysis of a single gene was insufficient to detect all mixed infections. Infections caused by multiple strains, as opposed to single strains, were associated with higher baseline viral loads (P = 0.011), delayed viral clearance (P = 0.033), and higher rates of virologic recurrence (P = 0.008). CONCLUSIONS: Genetic diversity in CMV is complex. Specific gN or IE subtypes do not seem to affect in vivo viral virulence patterns in single-strain infections. Mixed infections demonstrate associations with virologic outcomes that single-strain infections do not.

Obese and nonobese recipients had similar need for ventilatory support after liver transplantation.

BACKGROUND: Obesity is a risk factor for patients undergoing major surgery. In liver transplantation, the morbidity and mortality in these patients may be higher owing to concomitant diseases that may prolong hospital stay. Moreover, the restrictive respiratory pattern in these patients, associated with pulmonary complications related to liver disease can impact the postoperative recovery. We sought to analyze the impact of high body mass index (BMI) on hospital and intensive care unit (ICU) stay, necessity and length of use either invasive and noninvasive ventilatory support in the early postoperative period after liver transplantation. PATIENTS AND METHODS: Between January 2007 and March 2009, we performed 85 liver transplantations in adult patients. BMI was calculated on the day of the transplantation. Data from 136 recipients undergoing OLT were reviewed by age, gender, etiology of liver disease, Model for End-Stage Liver Disease score, Child-Pugh class, cold and warm ischemic times, ICU stay, duration of invasive mechanical, and use of noninvasive ventilation (NIV). We divided the patients into 3 groups: Group 1, (normal weight BMI 18.5-24.99), versus group 2 overweight--BMI 25-29.99; versus group 3, obese--BMI ≥30. RESULTS: Groups 1, 2, and 3 had similar lengths of stay in the ICU, necessity of NIV as well as 6 month, 1- and 2-year survivals (P > .05). CONCLUSION: High BMI patients showed similar results to normal or overweight patients. Obesity should not be contraindication to liver transplantation.