Cytomegalovirus Genetic Diversity Following Primary Infection.

BACKGROUND: Infection with multiple cytomegalovirus (CMV) strains (mixed infection) was reported in a variety of hosts. As the virus genetic diversity in primary CMV infection and the changes over time remain incompletely defined, we examined CMV diversity and changes in diversity over time in healthy adolescent females who participated in a phase 2 CMV gB/MF59 vaccine trial. METHODS: CMV genetic diversity was determined by genotyping of 5 genes-gB (UL55), gH (UL75), gN (UL73), US28, and UL144-in urine, saliva, and plasma samples from 15 study subjects. RESULTS: At the time of primary infection, 5 of 12 (42%) urine samples had multiple virus strains, and 50% of vaccine recipients were infected with gB1 genotype (vaccine strain). Mixed infection was documented in all 15 subjects within 3 months after primary infection, and the majority had different CMV genotypes in different compartments. Changes in genotypes over time were observed in all subjects. CONCLUSIONS: Infection with multiple CMV genotypes was common during primary infection and further diversification occurred over time. Infection with gB1 genotype in vaccine recipients suggests a lack of strain-specific protection from the vaccine. As only 5 polymorphic genes were assessed, this study likely underestimated the true genetic diversity in primary CMV infection.

Hepatitis E virus genotype 3 and capsid protein in the blood and urine of immunocompromised patients.

OBJECTIVES: Hepatitis E virus genotype 3 (HEV3) is responsible for acute and chronic liver disease in solid organ transplant (SOT) recipients. HEV was recently found in the urine of some acutely and chronically genotype 4-infected patients. METHODS: We examined the urinary excretion of HEV3 by 24 consecutive SOT recipients at the acute phase of HEV hepatitis and characterized the excreted virus. RESULTS: Urinary HEV RNA was detected in 12 (50%) of the 24 transplanted patients diagnosed with HEV hepatitis. Urinary HEV antigen (Ag) was detected in all but one of the patients (96%). The density of RNA-containing HEV particles in urine was low (1.11-1.12 g/cm3), corresponding to lipid-associated virions. The urinary HEV RNA/Ag detected was not associated with impaired kidney function or de novo proteinuria. Finally, there was more HEV Ag in the serum at the acute phase of HEV infection in SOT recipients whose infection became chronic. CONCLUSIONS: HEV3 excreted via the urine of SOT recipients at the acute phase of HEV hepatitis has a lipid envelope. Renal function was not impaired. While urinary HEV Ag was a sensitive indicator of HEV infection, only acute phase serum HEV Ag indicated the development of a chronic infection.

Human cytomegalovirus UL55, UL144, and US28 genotype distribution in infants infected congenitally or postnatally.

Cytomegalovirus (CMV) is the most common cause of congenital infection. This pathogen exhibits extensive genetic variability in the genes that encode structural envelope glycoproteins, regulatory proteins, and proteins that contribute to immune evasion. However, the role of specific viral strains in the outcome of congenital CMV infection is unclear. Variation in the UL55 gene encoding glycoprotein B (gB), the UL144 gene encoding TNF α-like receptor, and the US28 gene encoding ß-chemokine receptor was determined in 60 newborn infants with congenital CMV infection and 90 infants with postnatal or undefined CMV infection. CMV polymorphisms were studied in relation to disease outcome and viral load. Genotyping was performed by a sequencing analysis of PCR-amplified fragments, and the viral load was measured by quantitative real-time PCR. The results demonstrated that (1) the UL55 and US28 genotype distributions were similar among the group of congenital and postnatal CMV infection; (2) the UL144 B1 genotype was more prevalent in congenital than in postnatal infection and was detected in 70% of newborns with asymptomatic congenital infection; and (3) none of the examined genotype was significantly linked with symptomatic CMV infection. No relationship was observed between genotype and viral load. The results revealed that UL55, UL144, and US28 polymorphisms are not associated with the outcome of CMV infection in infants, but the presence of UL144 B1 genotype might be virological marker of asymptomatic infection at birth.

Limited dissemination and shedding of the UL128 complex-intact, UL/b'-defective rhesus cytomegalovirus strain 180.92.

UNLABELLED: The UL128 complex of human cytomegalovirus (CMV) is a major determinant of viral entry into epithelial and endothelial cells and a target for vaccine development. The UL/b' region of rhesus CMV contains several open reading frames, including orthologs of the UL128 complex. We recently showed that the coding content of the rhesus CMV (RhCMV) UL/b' region predicts acute endothelial tropism and long-term shedding in vivo in the rhesus macaque model of CMV infection. The laboratory-passaged RhCMV 180.92 strain has a truncated UL/b' region but an intact UL128 complex. To investigate whether the presence of the UL128 complex alone was sufficient to confer endothelial and epithelial tropism in vivo, we investigated tissue dissemination and viral excretion following experimental RhCMV 180.92 inoculation of RhCMV-seronegative rhesus macaques. We show the presence of at least two virus variants in the RhCMV 180.92 infectious virus stock. A rare variant noted for a nontruncated wild-type-virus-like UL/b' region, rapidly emerged during in vivo replication and showed high-level replication in blood and tissues and excretion in urine and saliva, features similar to those previously reported in naturally occurring wild-type RhCMV infection. In contrast, the predominant truncated version of RhCMV 180.92 showed significantly lower plasma DNAemia and limited tissue dissemination and viral shedding. These data demonstrate that the truncated RhCMV 180.92 variant is attenuated in vivo and suggest that additional UL/b' genes, besides the UL128 complex, are required for optimal in vivo CMV replication and dissemination. IMPORTANCE: An effective vaccine against human CMV infection will need to target genes that are essential for virus propagation and transmission. The human CMV UL128 complex represents one such candidate antigen since it is essential for endothelial and epithelial cell tropism, and is a target for neutralizing antibodies in CMV-infected individuals. In this study, we used the rhesus macaque animal model of CMV infection to investigate the in vivo function of the UL128 complex. Using experimental infection of rhesus macaques with a rhesus CMV virus variant that contained an intact UL128 complex but was missing several other genes, we show that the presence of the UL128 complex alone is not sufficient for widespread tissue dissemination and virus excretion. These data highlight the importance of in vivo studies in evaluating human CMV gene function and suggest that additional UL/b' genes are required for optimal CMV dissemination and transmission.

Detection of SRV/D shedding in body fluids of cynomolgus macaques and comparison of partial gp70 sequences in SRV/D-T isolates.

We previously reported the isolation of a novel subtype of SRV/D-Tsukuba (SRV/D-T) from two cynomolgus monkeys (Macaca facicularis) in the breeding colony of Tsukuba Primate Research Center (TPRC). We surveyed for SRV/D infection in the TPRC cynomolgus colony using SRV/D-specific PCR primer sets designed based on the entire gag region sequence. The only SRV/D subtype detected in the colony was SRV/D-T with a positive infection rate of 22.4% (n = 49). It has been reported that the mode of transmission of SRV/D is via contact with virus shed in the body fluids. In this report, to investigate the infection route of SRV/D-T in monkeys at TPRC, we performed virus isolation and PCR for detection of the SRV/D genome from peripheral blood mononuclear cells (PBMCs), plasma, saliva, urine, and feces. Virus isolation and PCR detection were positive in plasma, saliva, urine, and fecal samples from all monkeys on which virus was isolated from PBMCs. This suggests that the spread of SRV/D-T infection in TPRC is via contact with virus shed in saliva, urine, and/or feces. Also, comparison of sequences of gp70 on multiple SRV/D-T isolates revealed that there was little intra- and inter-monkey variation, suggesting that SRV/D-T is fairly stable.

Isolation and N-terminal sequence of multiple forms of granulins in human urine.

Three molecular forms of granulins (also known as epithelins) were isolated, for the first time, in human urine. Their N-terminal sequences, which have also been determined, are identical to those of granulins A and B, previously isolated from human leukocytes, and of granulin F, never isolated before but whose primary structure is known on the basis of the cDNA sequence. The urinary molecules, which show a molecular weight of about 6.5 kDa, are most likely produced by a posttranslational proteolytic processing occurring at the level of the kidney, which appears to be the organ richest in granulin precursor mRNA. The molecular events underlying the precursor processing are unknown, even though the involvement of the protease kallikrein, an enzyme thought to be responsible for the processing of several polypeptidic growth factor precursors, could be hypothesized. Granulins, however, do not show antikallikrein activity. The presence in human urine of isoform F, previously not identified from other human sources, seems to support the hypothesis that mature forms of granulins are generated by an organ-specific precursor processing, on the basis of particular physiological requirements, and to suggest also that this isoform may play "in vivo" an important and specific role in the epithelial cells of the human kidney.

Detection of bovine leukemia virus antigen in urine from naturally infected cattle.

A competitive radioimmunoassay was used to detect the major internal protein (p25) of bovine leukemia virus (BLV) in urine from infected cattle. Whole urine samples from six out of seven infected cattle were found to contain the BLV p25 antigen. Analysis of different fractions of urine indicated that p25 was present in a soluble form as well as in the high-speed pellet, but not in the low-speed pellet. Similar results were obtained with urine samples collected from a BLV-infected cow by catheterization of the bladder.