Patrick Heinemann

A 10-year molecular survey of herpes simplex virus type 1 in Germany demonstrates a stable and high prevalence of genotypes A and B

BACKGROUND Recently three different herpes simplex virus type 1 (HSV-1) genotypes (A, B and C) were described on DNA sequence data of the glycoprotein E (gE), G (gG) and I (gI) genes. OBJECTIVE To type the circulating HSV-1 wild-type strains in Germany and to monitor potential changes in the molecular epidemiology over the past 10 years. STUDY DESIGN A total of 569 clinical HSV-1 isolates from a 10-year survey in Germany were genotyped by a PCR-based restriction fragment length polymorphism analysis of gG and gI. Recombination analysis of the gE gene sequences was performed to reveal intragenic recombinants. RESULTS Genotypes A and B strains represented 76% of all strains analyzed and showed a stable distribution within all age groups investigated, independently from the gender. Intergenic gG/gI and intragenic gE recombinants were demonstrated to be less prevalent. Interestingly, for one HIV infected patient a gG/gI genotype switch from A/A to C/A was observed within 3 years. CONCLUSION The first molecular survey of clinical HSV-1 isolates from Germany demonstrated a stable distribution of two different genotypes and recombinants within age groups and over a period of 10 years. Moreover, homologous recombination seems to be an important feature in the evolution of the HSV-1 genome.

The N Terminus of Andes Virus L Protein Suppresses mRNA and Protein Expression in Mammalian Cells

ABSTRACT Little is known about the structure and function of the 250-kDa L protein of hantaviruses, although it plays a central role in virus genome transcription and replication. When attempting to study Andes virus (ANDV) L protein in mammalian cells, we encountered difficulties. Even in a strong overexpression system, ANDV L protein could not be detected by immunoblotting. Deletion analysis revealed that the 534 N-terminal amino acid residues determine the low-expression phenotype. Inhibition of translation due to RNA secondary structures around the start codon, rapid proteasomal degradation, and reduced half-life time were excluded. However, ANDV L protein expression could be rescued upon mutation of the catalytic PD-E-K motif and further conserved residues of the putative endonuclease at the N terminus of the protein. In addition, wild-type ANDV L rather than expressible L mutants suppressed the level of L mRNA, as well as reporter mRNAs. Wild-type L protein also reduced the synthesis of cellular proteins in the high-molecular-weight range. Using expressible ANDV L mutants as a tool for localization studies, we show that L protein colocalizes with ANDV N and NSs but not Gc protein. A fraction of L protein also colocalized with the cellular processing (P) body component DCP1a. Overall, these data suggest that ANDV L protein possesses a highly active endonuclease at the N terminus suppressing the level of its own as well as heterologous mRNAs upon recombinant expression in mammalian cells.

Life-Threatening Sochi Virus Infections, Russia.

Sochi virus was recently identified as a new hantavirus genotype carried by the Black Sea field mouse, Apodemus ponticus. We evaluated 62 patients in Russia with Sochi virus infection. Most clinical cases were severe, and the case-fatality rate was as high as 14.5%.

Novel approach to differentiate subclades of varicella-zoster virus genotypes E1 and E2 in Germany

Varicella-zoster virus (VZV) is the causative agent of chicken pox (varicella) in children and reactivation of VZV in elderly or immunocompromised persons can cause shingles (zoster). A subclade differentiation of the most prevalent VZV genotypes E1 and E2 in Germany was not possible with the current genotyping methods in use, but is highly important to understand the VZV molecular evolution in more detail and especially to follow up the routes of infection. Therefore the objective of this study was to develop a simple PCR-based method for differentiation of E1 and E2 subclades. Viral DNA was isolated from vesicle fluid samples of six selected German zoster patients and used to amplify nine complete open reading frames (ORFs) of the VZV genome by different PCR assays. Phylogenetic analysis was performed by a Bayesian approach. Based on the analysis of a total of nine ORFs, a 7482 bp stretch consisting of ORFs 5, 37 and 62 contained informative sites for identification of novel subclades E1a, E2a and E2b for VZV genotypes E1 and E2. Specific single nucleotide polymorphisms (SNPs) were demonstrated for subclades E2a and E2b within the ORFs 5, 37 and 62, whereas a subclade E1a-specific SNP was found in ORF 56. The classification of E1 and E2 subclades may facilitate a more exact and in-depth monitoring of the molecular evolution of VZV in Germany in the future.

A 12-year molecular survey of clinical herpes simplex virus type 2 isolates demonstrates the circulation of clade A and B strains in Germany

BACKGROUND Recently two different herpes simplex virus type 2 (HSV-2) clades (A and B) were described on DNA sequence data of the glycoprotein E (gE), G (gG) and I (gI) genes. OBJECTIVE To type the circulating HSV-2 wild-type strains in Germany by a novel approach and to monitor potential changes in the molecular epidemiology between 1997 and 2008. STUDY DESIGN A total of 64 clinical HSV-2 isolates were analyzed by a novel approach using the DNA sequences of the complete open reading frames of glycoprotein B (gB) and gG. Recombination analysis of the gB and gG gene sequences was performed to reveal intragenic recombinants. RESULTS Based on the phylogenetic analysis of the gB coding DNA sequence 8 of 64 (12%) isolates were classified as clade A strains and 56 of 64 (88%) isolates were classified as clade B strains. Analysis of the gG coding DNA sequence classified 4 (6%) isolates as clade A strains and 60 (94%) isolates as clade B strains. In comparison, the 8 isolates classified as clade A strains using the gB sequence data were classified as clade B strains when using the gG coding DNA sequence, suggesting intergenic recombination events. Intragenic recombination events were not detected. CONCLUSION The first molecular survey of clinical HSV-2 isolates from Germany demonstrated the circulation of clade A and B strains and of intergenic recombinants over a period of 12 years.

Surveillance of Batai Virus in Bovines from Germany

ABSTRACT To estimate the veterinary importance of Batai virus (BATV), we investigated the presence of BATV-specific antibodies and BATV RNA in 548 bovines from southwest Germany, and we demonstrated that 3 cattle serum samples contained BATV-neutralizing antibodies, resulting in a seroprevalence of 0.55%. Thus, our results confirm local transmission and indicate cattle as potential hosts of BATV in southwest Germany.

Sin Nombre hantavirus nucleocapsid protein exhibits a metal-dependent DNA-specific endonucleolytic activity.

We demonstrate that the nucleocapsid protein of Sin Nombre hantavirus (SNV-N) has a DNA-specific endonuclease activity. Upon incubation of SNV-N with DNA in the presence of magnesium or manganese, we observed DNA digestion in sequence-unspecific manner. In contrast, RNA was not affected under the same conditions. Moreover, pre-treatment of SNV-N with RNase before DNA cleavage increased the endonucleolytic activity. Structure-based protein fold prediction using known structures from the PDB database revealed that Asp residues in positions 88 and 103 of SNV-N show sequence similarity with the active site of the restriction endonuclease HindIII. Crystal structure of HindIII predicts that residues Asp93 and Asp108 are essential for coordination of the metal ions required for HindIII DNA cleavage. Therefore, we hypothesized that homologous residues in SNV-N, Asp88 and Asp103, may have a similar function. Replacing Asp88 and Asp103 by alanine led to an SNV-N protein almost completely abrogated for endonuclease activity.

Human Dobrava-Belgrade hantavirus infection, Kosovo

Here we describe an acute Dobrava-Belgrade virus (DOBV) infection that presented as severe hemorrhagic fever with renal syndrome (HFRS) in an active-duty U.S. soldier. The infection was acquired in northern Kosovo in spring 2013. Amplification of DOBV genome segments directly from the patients serum sample was successfully performed. Phylogenetic analysis demonstrated that the strain belong to DOBV genotype Dobrava and is closely related to strains circulating in Southeast Europe and Slovakia. Thus, our case confirms that DOBV genotype Dobrava is able to cause a severe form of HFRS, especially when compared to the other less pathogenic DOBV genotypes.

Molekulare Identifikation von Hantaviren in neuen Wirten

In addition to classical virus isolation in cell culture, the molecular detection of new virus variants by PCR techniques allows broader epidemiological insights into the world of viral pathogens. For the detection of hantaviruses–zoonotic viruses leading to fever and organ failure in humans–we developed a genus-wide nested RT-PCR format, which enables the discovery of new members within this virus genus. The methodological approach allowed the demonstration of first hantaviruses from Africa and revealed new hantavirus reservoir hosts, as shrews, moles, and bats.