Comprehensive detection and serotyping of human adenoviruses by PCR and sequencing

Abrupt emergence of diverse species B adenoviruses at US military recruit training centers

BACKGROUND

Adenoviruses (Ads) cause continuous outbreaks of acute respiratory disease (ARD) in US military training facilities. In 1996, the loss of vaccines targeting the dominant recruit-associated serotypes precipitated the reemergence of Ads in these populations. Between 1999 and 2002, serotype 4 accounted for >95% of Ads isolated from recruits and for >50% of ARD cases in training facilities (15,000 cases/year).

METHODS

Ads (n=1867) collected between 2002 and 2006 from recruits with ARD at 8 military training facilities in the United States were serotyped by serum neutralization and polymerase chain reaction.

RESULTS

The dominance of Ad4 continued through 2005, followed by a simultaneous emergence of diverse species B serotypes at the majority of sites. This included the subspecies B1 serotypes 3, 7, and 21 and the subspecies B2 serotype 14. Ad14 was the most prevalent species B serotype, appearing in high numbers at 3 sites and becoming dominant at 1.

CONCLUSIONS

Subspecies B2 Ads have rarely been associated with ARD, and only in Eurasia. This survey represents the first report of AdB2-associated ARD in the Western Hemisphere. The simultaneous emergence of several species B Ads suggests a common external source (the civilian population) and a decrease in preexisting immunity to species B Ads.

Human adenoviruses types associated with non-gonococcal urethritis

BACKGROUND

Role of adenoviruses in non-gonococcal urethritis (NGU) has been reported in only a few studies. The aim of the study was to detect and type adenoviruses in men presenting with NGU.

METHODS

636 heterosexual and homosexual men presenting with NGU from Melbourne, Australia were recently evaluated for various aetiological organisms including adenovirus. We utilised methods including polymerase chain reaction for detection followed by sequence analysis to type positive samples.

RESULTS

Overall, 12 samples from patients with NGU had adenovirus detected. Five types were identified: type 4 (subgenus E), type 35 (subgenus B), and types 9, 37 and 49 (subgenus D). The presence of mixed adenovirus strains was not detected in any sample.

CONCLUSION

Overall, subgenus B, D and E were predominant in this patient population.

Sequential emergence of multiple adenovirus serotypes after pediatric stem cell transplantation

BACKGROUND

Adenovirus infections after allogeneic stem cell transplantation (SCT), particularly in children, may be severe and protracted. Up to 51 different serotypes of adenovirus are presently recognized but serotyping is usually limited to initial viral isolates.

OBJECTIVES

A systematic and sustained analysis of adenovirus serotypes in a cohort of adenovirus-infected pediatric SCT recipients, correlated to transplant-associated variables.

STUDY DESIGN

Eighty-three consecutive pediatric SCT recipients were studied by culture of feces and adenoviruses isolated were serotyped by neutralization. Upon persistent viral excretion, serotyping was repeated for at least two isolates of any infectious episode, including initial and final isolates, and patients with single and multiple serotypes were compared. In a subset of cases, serotyping of fecal isolates was compared to genotypic analysis.

RESULTS

In 33 patients, adenovirus was isolated at least once after SCT. Serotyping uncovered 49 different adenoviruses, including three isolates without an assigned serotype. In 16 patients, a single serotype was present for a sustained period, whereas 12 patients (36%) showed multiple serotypes. Comparison of these groups demonstrated more frequent non-malignant primary disease with multiple infections (p<0.01), but otherwise no significant differences were observed, although single serotype infections had a lower survival rate. Remarkably, serotype 31 appeared initially in 7 out of 12 patients with multiple infections. Genotyping by sequencing confirmed neutralization assays at least at the species level in 14 of 18 isolates.

CONCLUSION

In 36% of adenovirus infections after SCT more than one serotype could be detected by sequential analysis. Multiple serotypes occurred more often with non-malignant disorders. Adenovirus serotype 31 was often included. This finding is relevant for diagnostic purposes and immunotherapeutic interventions and provides insight into the pathogenesis of this problem.

Assessment of genetic variability among subspecies b1 human adenoviruses for molecular epidemiology studies

Adenoviruses exhibit considerable intraserotypic genetic variability. Restriction enzyme analysis of the adenoviral genome is currently the most widely used procedure for the characterization of adenovirus isolates and has been extensively used for molecular epidemiological studies of subspecies B1 adenovirus infections. Comparison of restriction site maps between viral genomes is qualitatively consistent with DNA sequence homology providing that a sufficient number of sites are known. This technique is simple, sensitive, and can be adapted for screening numerous isolates and is therefore particularly useful for analysis of closely related genomes. Restriction enzyme analysis is still the only molecular approach that, at a reasonable cost, can give a "genome-wide" characterization of an adenovirus strain. Polymerase chain reaction (PCR) amplification followed by sequencing of the generated amplicon is the approach of choice for the detailed analysis of specific regions of the viral genome. Several laboratories have recently adopted PCR amplification of the hexon and/or fiber genes for the determination of adenovirus serotype identity, replacing identification by seroneutralization and hemmaglutination-inhibition. This approach permits rapid and objective type-specific identification of human adenoviruses and is especially useful for the characterization of serologically intermediate strains frequently identified among field strains of subspecies B1 adenoviruses.

Prevalence and characterization of enteric adenoviruses in the South of Ireland

Enteric adenoviruses have been shown to be a substantial cause of pediatric gastroenteritis in various parts of the world, and are considered to be the second most common cause of viral gastroenteritis, next to rotavirus in young children. Genetic characterization of 95 adenovirus isolates obtained from patients with acute gastroenteritis between 2002 and 2007 from the southern regions of Ireland, were characterized by PCR analysis, restriction endonuclease (RE) analysis and sequencing analysis. All isolates were found to be of adenovirus type 41 origin. Genetic analysis of seven hypervariable regions (HVRs) located within the hexon gene has revealed a high level of amino acid sequence homology in samples over the course of this study, with a very close relationship to the D22 genome type. The D22 genome type has been detected in several other countries, thus suggesting Irish isolates have common genome types with other stains worldwide. This is the first such study undertaken in the south of Ireland, to type and genetically characterize adenoviral gastroenteritis isolates, and has revealed a high level of conservation within the isolated analyzed.

Typing of human adenoviruses in specimens from immunosuppressed patients by PCR-fragment length analysis and real-time quantitative PCR

Currently, 51 human adenovirus (AdV) serotypes, which are divided into six species (A to F), are known. AdV infections are a major cause of morbidity and mortality in immunosuppressed individuals, particularly in allogeneic stem cell transplant (SCT) recipients. Any AdV species may cause life-threatening disease, but little information is available on the clinical relevance of individual serotypes. The use of serological testing for serotype identification is limited due to the impaired immune response during the posttransplant period. A new molecular approach to serotype identification is presented here that exploits variable regions within the hexon gene. All serotypes belonging to the species A, B, C, E, and F can be determined by fragment length analysis of a single PCR product. For species C, which is the most prevalent in many geographic regions, an alternative technique based on serotype-specific real-time quantitative PCR was established. Of 135 consecutive pediatric patients screened for AdV infections after allogeneic SCT, 40 tested positive. Detailed analysis revealed the presence of 10 different serotypes; serotypes 1 and 2 from species C (C01 and C02) showed the highest prevalence, accounting for 77% of the AdV-positive cases. Representatives of other species were observed less commonly: serotype A12 in 6.5%; serotype A31 in 4.5%; and B03, B16, C05, C06, D19, and F41 in 2%. The approach to rapid molecular serotype analysis presented here provides a basis for detailed studies on adenovirus epidemiology and on the transmission of nosocomial infections. Moreover, in view of the increasing importance of tailored therapy approaches, serotype identification may in the future have implications for the selection of the most appropriate antiviral treatment.

Real-time reverse transcription-PCR for detection of rotavirus and adenovirus as causative agents of acute viral gastroenteritis in children

Viral pathogens are the most common cause of gastroenteritis in developed countries. Human rotavirus and adenovirus infections are major causes of acute outbreaks and sporadic cases of gastroenteritis, occurring primarily among children less than 2 years of age. Patient hospitalization is often required, with enormous infection control implications. This work describes the development of real-time PCR assays for the detection of group F adenovirus, rotavirus A, and rotavirus C from stool specimens. Two hundred twenty stool samples from pediatric patients exhibiting symptoms of diarrhea and/or vomiting were examined. PCR results were compared with those of virus detection by electron microscopy and latex agglutination antigen detection. The incorporation of an internal-control RNA that was spiked into individual stool extracts functioned as an internal validation for the reporting of PCR-negative results. Rotavirus C was not detected by real-time PCR in the patient stool samples examined. Real-time reverse transcription-PCR resulted in 175% and 111% increases in the rates of detection of adenovirus F and rotavirus A, respectively, compared with latex agglutination testing. Molecular detection increased the number of stool specimens in which causative agents of gastroenteritis were identified by 155% compared to electron microscopy. Genotyping of a proportion of the rotavirus and adenovirus strains identified only genotype G1 rotavirus and both adenovirus genotypes 40 and 41 in circulation within the patient cohort examined. The results highlight the significance of rapid molecular methods for the routine screening of stool samples in hospital laboratories to provide rapid definitive diagnoses.

Molecular identification of adenovirus sequences: a rapid scheme for early typing of human adenoviruses in diagnostic samples of immunocompetent and immunodeficient patients

Precise typing of human adenoviruses (HAdV) is fundamental for epidemiology and the detection of infection chains. As only few of the 51 adenovirus types are associated with life- threatening disseminated diseases in immunodeficient patients, detection of one of these types may have prognostic value and lead to immediate therapeutic intervention. A recently published molecular typing scheme consisting of two steps (sequencing of a generic PCR product closely adjacent to loop 1 of the main neutralization determinant epsilon, and for species HAdV-B, -C, and -D the sequencing of loop 2 [Madisch et al., 2005]) was applied to 119 clinical samples. HAdV DNA was typed unequivocally even in cases of culture negative samples, for example in immunodeficient patients before HAdV causes high virus loads and disseminated disease. Direct typing results demonstrated the predominance of HAdV-1, -2, -5, and -31 in immunodeficient patients suggesting the significance of the persistence of these viruses for the pathogenesis of disseminated disease. In contrast, HAdV-3 predominated in immunocompetent patients and cocirculation of four subtypes was demonstrated. Typing of samples from a conjunctivitis outbreak in multiple military barracks demonstrated various HAdV types (2, 4, 8, 19) and not the suspected unique adenovirus etiology. This suggests that our molecular typing scheme will be also useful for epidemiological investigations. In conclusion, our two-step molecular typing system will permit the precise and rapid typing of clinical HAdV isolates and even of HAdV DNA in clinical samples without the need of time-consuming virus isolation prior to typing.

Adenoviral infections in pediatric transplant recipients: a hospital-based study

OBJECTIVE

To assess the disease burden and outcomes resulting from adenoviral infections among pediatric transplant recipients.

METHODS

This was a retrospective study of adenoviral infections among pediatric transplant recipients who were hospitalized at our center between 1993 and 2003. Patients were defined as having adenoviral infection if the virus was demonstrated in stool, urine, respiratory, blood, or biopsy tissue samples in the presence of attributable clinical findings. Data were obtained from the hospital's medical records and laboratory databases.

RESULTS

There were 55 patients with single episodes of adenovirus infection: 28 (50.9%) solid organ transplant (SOT) and 27 (49.1%) hematopoietic stem cell transplant (HSCT) recipients. The prevalence rates among SOT and HSCT recipients were 1 per 16 and 1 per 24 transplants performed, respectively. The median age of patients with adenovirus infections was 3.66 years (range, 0.25-17.25). Infection occurred at a median of 1.6 months posttransplantation (range, 0.03-153.). Adenovirus was most frequently demonstrated from the gastrointestinal tract (78%). Other sites infected included the respiratory tract, liver, blood and urinary tract. Overall mortality was 14.6%. All deaths occurred among HSCT recipients (mortality, 29.6%). Deaths were more likely among patients with adenovirus identified at >or=2 sites than in those having localized disease (P < 0.01).

CONCLUSION

Mortality from adenoviral infection was a greater risk for HSCT than SOT recipients. Early onset of infection after transplantation suggests the possibility of reactivation of adenovirus rather than new acquisition in at least of proportion of cases. This is important for surveillance of this infection in transplant recipients.

Modulation of immunity to respiratory viral infection

Acute respiratory tract infections cause approximately 4 million deaths globally each year. Current strategies to combat these infections include vaccines and antiviral drugs. However, a significant proportion of the pathology and illness induced by respiratory viral infection is attributed to an excessive host immune response, rather than the cytopathic nature of the pathogen. Distinct respiratory viruses elicit common immune mediators and cells, which are subsequently the cause of pathology. Therefore, strategies that seek to attenuate the potency of the host’s immune response may provide generic relief from multiple respiratory infections.

Phylogenetic analysis of the main neutralization and hemagglutination determinants of all human adenovirus prototypes as a basis for molecular classification and taxonomy

Human adenoviruses (HAdV) are responsible for a wide spectrum of diseases. The neutralization epsilon determinant (loops 1 and 2) and the hemagglutination gamma determinant are relevant for the taxonomy of HAdV. Precise type identification of HAdV prototypes is crucial for detection of infection chains and epidemiology. epsilon and gamma determinant sequences of all 51 HAdV were generated to propose molecular classification criteria. Phylogenetic analysis of epsilon determinant sequences demonstrated sufficient genetic divergence for molecular classification, with the exception of HAdV-15 and HAdV-29, which also cannot be differentiated by classical cross-neutralization. Precise sequence divergence criteria for typing (<2.5% from loop 2 prototype sequence and <2.4% from loop 1 sequence) were deduced from phylogenetic analysis. These criteria may also facilitate identification of new HAdV prototypes. Fiber knob (gamma determinant) phylogeny indicated a two-step model of species evolution and multiple intraspecies recombination events in the origin of HAdV prototypes. HAdV-29 was identified as a recombination variant of HAdV-15 (epsilon determinant) and a speculative, not-yet-isolated HAdV prototype (gamma determinant). Subanalysis of molecular evolution in hypervariable regions 1 to 6 of the epsilon determinant indicated different selective pressures in subclusters of species HAdV-D. Additionally, gamma determinant phylogenetic analysis demonstrated that HAdV-8 did not cluster with -19 and -37 in spite of their having the same tissue tropism. The phylogeny of HAdV-E4 suggested origination by interspecies recombination between HAdV-B (hexon) and HAdV-C (fiber), as in simian adenovirus 25, indicating additional zoonotic transfer. In conclusion, molecular classification by systematic sequence analysis of immunogenic determinants yields new insights into HAdV phylogeny and evolution.

Complete sequence and organization of the human adenovirus serotype 46 genome

Out of 51 human adenoviral serotypes recognized to date, 32 of them belong to species D. Members of species D adenoviruses are commonly isolated from immune suppressed patients (organ transplant) and patients suffering from AIDS. The role of species D adenoviruses in pathogenesis is currently unclear. To derive new insights into the genetic content and evolution of species D adenoviruses and as a first step towards development of human adenovirus serotype 46 (Ad46) as vector, the complete nucleotide sequence of the virus was determined. The size of the genome is 35,178 bp in length with a G+C content of 56.9%. All the early and late region genes are present in the expected locations of the genome. The deduced amino acid sequences of all late region genes, with the exception of fiber, exhibited high degree of homology with the corresponding proteins of other adenoviruses. The deduced amino acid sequences of early regions E1, E3 and E4 showed a high degree of homology with the corresponding proteins of adenoviruses belonging to species D and less homology with the corresponding proteins of adenoviruses of other species. The homologues of Ad5 E3 region genes encoding 12.5K, gp19K, 10.4K, 14.5K and 14.7K are conserved in the genome of Ad46. However, the E3 region of Ad46 lacks genes encoding 6.7K and adenovirus death protein (ADP) but contains two additional open reading frames with a coding capacity of 433 and 281 amino acids. The fiber protein of Ad46 is 200 amino acids smaller than the fiber protein of Ad5 and contains only 10 pseudo-repeats in the shaft region. To facilitate the manipulation of the genome, the complete genome of Ad46 was cloned into a single bacterial plasmid. Following transfection into E1 complementing cell lines, the virus was recovered demonstrating the feasibility of viral genome manipulation for generation of recombinant viruses.

Molecular typing of human adenoviruses by PCR and sequencing of a partial region of the hexon gene

Human adenoviruses (Ads) are responsible for a substantial disease burden. Type-specific identification of Ads can help guide therapeutic and disease prevention strategies and aid epidemiological investigations. Immunotyping of Ads by serum neutralization (SN) is laborious and time consuming and depends upon type-specific antisera that are in short supply. A rapid molecular typing assay based on polymerase chain reaction (PCR) amplification and sequencing of Ad hexon gene hyper-variable regions 1-6 (HVR(1-6)) known to contain type-specific epitopes was evaluated as an alternative to SN. Deduced amino acid sequences of HVR(1-6) obtained from all 51 currently recognized Ad prototype strains were well resolved, with the exception of types 15 and 29, which were identical. Of 192 temporally and geographically diverse Ad field isolates sequenced in this study, and 111 previously published sequences, all more closely matched their predicted prototype strains. Ads were also detected and correctly identified directly from 24 clinical specimens positive by culture or antigen detection. PCR and sequencing of HVR(1-6) offers a practical alternative to SN for typing most Ads and can be readily adapted for use in laboratories with molecular capabilities.

Molecular identification of adenoviruses in clinical samples by analyzing a partial hexon genomic region

Here we present a system for adenovirus detection and genotyping based on PCR amplification and phylogenetic analysis of a conserved hexon gene fragment. The system was validated using 157 sequences (86 previously typed and 71 clinical samples) and correctly identified species and serotype in 100% and 84% of sequences, respectively. Known associations between specific serotypes and clinical syndromes are verified. Possible new associations are described to allow further independent testing.

Rapid identification of human adenovirus types 3 and 7 from respiratory specimens via multiplex type-specific PCR

The rapid diagnosis of human adenovirus (Ad) infection is crucial for the timely recognition of epidemics. Moreover, identification of the serotypes known to cause serious disease can be helpful in therapeutic intervention. A multiplex PCR assay was developed for the rapid detection of adenovirus type 3 (Ad3) and Ad7 directly from clinical specimens. For this assay, three primer pairs (primers were based on the conserved and hypervariable regions of the hexon) were designed in order to simultaneously amplify all adenoviral serotypes and discriminate between Ad3 and Ad7. In our preliminary analysis, this multiplex PCR assay generated amplicons of the consensus primers from all 106 adenoviral isolates of diverse serotypes and proved able to correctly identify Ad3 and Ad7. This assay was subsequently applied to the detection of Ad3 and Ad7 in respiratory specimens. Among the 127 nasal aspirates from which an adenovirus was grown, the sensitivity with which any serotype could be detected was 91% (115/127). Two of the 53 nasal aspirates which did not grow Ads yielded adenovirus-specific bands, which were confirmed by sequencing analysis. Among the 115 specimens which produced common adenoviral bands, the sensitivity with which Ad3 could be detected was 93% (26/28), and the sensitivity with which Ad7 could be detected was 100% (35/35). Five out of the 115 specimens were proved to harbor more than one type of Ad via sequencing analysis of the amplicons, suggesting mixed infection with at least two different serotypes. In conclusion, this multiplex PCR system can be utilized in the rapid identification of Ad3 and Ad7 directly from clinical specimens. Furthermore, this method constitutes a diagnostic strategy for the detection of coinfection by different Ad serotypes.

Prospects for adenovirus antivirals

Adenoviruses cause a number of self-limiting but often highly infectious diseases that affect multiple organs, most commonly those associated with respiratory, genitourinary and gastrointestinal tracts and the ocular surface. Many factors have driven a search for effective topical and systemic antivirals to adenoviruses. These include patient morbidity, economic losses and chronic visual disturbances associated with epidemic keratoconjunctivitis; and the startling recent trend of high morbidity and rising mortality associated with systemic adenoviral infections in the immunosuppressed, particularly paediatric bone marrow transplant recipients. The development of effective antivirals has proven to be a complex task, owing to the fact that multiple and often genetically divergent adenovirus serotypes can cause similar diseases. Currently, there remains no licensed systemic or topical treatment in the USA or Europe. However, many compounds have been explored for activity against adenoviruses, and some have been evaluated clinically in either a topical setting for ocular disease or in the setting of systemic treatment in the face of life-threatening adenovirus infections. This article outlines such compounds, discusses the potential for their clinical development, and highlights some problems that may be faced in evaluating their efficacy clinically.