Jenni Lehtinen scite author profile

A majority of adults in Finland are seropositive carriers of herpes simplex viruses (HSV). Infection occurs at epithelial or mucosal surfaces, after which virions enter innervating nerve endings, eventually establishing lifelong infection in neurons of the sensory or autonomic nervous system. Recent data have highlighted the genetic diversity of HSV-1 strains and demonstrated apparent geographic patterns in strain similarity. Though multiple HSV-1 genomes have been sequenced from Europe to date, there is a lack of sequenced genomes from the Nordic countries. Finland’s history includes at least two major waves of human migration, suggesting the potential for diverse viruses to persist in the population. Here, we used HSV-1 clinical isolates from Finland to test the relationship between viral phylogeny, genetic variation, and phenotypic characteristics. We found that Finnish HSV-1 isolates separated into two distinct phylogenetic groups, potentially reflecting historical waves of human (and viral) migration into Finland. Each HSV-1 isolate harbored a distinct set of phenotypes in cell culture, including differences in the amount of virus production, extracellular virus release, and cell-type-specific fitness. Importantly, the phylogenetic clusters were not predictive of any detectable pattern in phenotypic differences, demonstrating that whole-genome relatedness is not a proxy for overall viral phenotype. Instead, we highlight specific gene-level differences that may contribute to observed phenotypic differences, and we note that strains from different phylogenetic groups can contain the same genetic variations. IMPORTANCE Herpes simplex viruses (HSV) infect a majority of adults. Recent data have highlighted the genetic diversity of HSV-1 strains and demonstrated apparent genomic relatedness between strains from the same geographic regions. We used HSV-1 clinical isolates from Finland to test the relationship between viral genomic and geographic relationships, differences in specific genes, and characteristics of viral infection. We found that viral isolates from Finland separated into two distinct groups of genomic and geographic relatedness, potentially reflecting historical patterns of human and viral migration into Finland. These Finnish HSV-1 isolates had distinct infection characteristics in multiple cell types tested, which were specific to each isolate and did not group according to genomic and geographic relatedness. This demonstrates that HSV-1 strain differences in specific characteristics of infection are set by a combination of host cell type and specific viral gene-level differences.

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Topical Treatment of Herpes Simplex virus Infection with Enzymatically Created siRNA Swarm

Paavilainen

Lehtinen

Romanovskaya

et al. 2016

Antiviral Therapy

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Inhibition of clinical pathogenic herpes simplex virus 1 strains with enzymatically created siRNA pools

Paavilainen

Lehtinen

Romanovskaya

et al. 2016

Journal of Medical Virology

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Herpes simplex virus (HSV) is a common human pathogen causing severe diseases such as encephalitis, keratitis, and neonatal herpes. There is no vaccine against HSV and the current antiviral chemotherapy fails to treat certain forms of the disease. Here, we evaluated the antiviral activity of enzymatically created small interfering (si)RNA pools against various pathogenic HSV strains as potential candidates for antiviral therapies. Pools of siRNA targeting 0.5-0.8 kbp of essential HSV genes UL54, UL29, or UL27 were enzymatically synthesized. Efficacy of inhibition of each siRNA pool was evaluated against multiple clinical isolates and laboratory wild type HSV-1 strains using three cell lines representing host tissues that support HSV-1 replication: epithelial, ocular, and cells that originated from the nervous system. The siRNA pools targeting UL54, UL29, and UL27, as well as their equimolar mixture, inhibited HSV replication, with the pool targeting UL29 having the most prominent antiviral effect. In contrast, the non-specific control siRNA pool did not have such an effect. Moreover, the UL29 pool elicited only a minimal innate immune response in the HSV-infected cells, thus evidencing the safety of its potential clinical use. These results are promising for the development of a topical RNA interference approach for clinical treatment of HSV infection. J. Med. Virol. 88:2196-2205, 2016. © 2016 Wiley Periodicals, Inc.

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Herpes Simplex Virus Type 1 Clinical Isolates Respond to UL29-Targeted siRNA Swarm Treatment Independent of Their Acyclovir Sensitivity

Kalke

Lehtinen

Gnjatovic

et al. 2020

Viruses

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Acyclovir is the drug of choice for the treatment of herpes simplex virus (HSV) infections. Acyclovir-resistant HSV strains may emerge, especially during long-term drug use, and subsequently cause difficult-to-treat exacerbations. Previously, we set up a novel treatment approach, based on enzymatically synthesized pools of siRNAs, or siRNA swarms. These swarms can cover kilobases-long target sequences, reducing the likelihood of resistance to treatment. Swarms targeting the UL29 essential gene of HSV-1 have demonstrated high efficacy against HSV-1 in vitro and in vivo. Here, we assessed the antiviral potential of a UL29 siRNA swarm against circulating strains of HSV-1, in comparison with acyclovir. All circulating strains were sensitive to both antivirals, with the half-maximal inhibitory concentrations (IC50) in the range of 350–1911 nM for acyclovir and 0.5–3 nM for the UL29 siRNA swarm. Additionally, we showed that an acyclovir-resistant HSV-1, devoid of thymidine kinase, is highly sensitive to UL29 siRNA treatment (IC50 1.0 nM; Imax 97%). Moreover, the detected minor variations in the RNAi target of the HSV strains had no effect on the potency or efficacy of UL29 siRNA swarm treatment. Our findings support the development of siRNA swarms for the treatment of HSV-1 infections, in order to circumvent any potential acyclovir resistance.

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Comparison of HSV-1 strains circulating in Finland demonstrates the uncoupling of whole-genome relatedness and phenotypic outcomes of viral infection

Bowen

Paavilainen

Renner

et al. 2018

Preprint

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40A majority of adults in Finland are seropositive carriers of herpes simplex viruses (HSV). 41 Infection occurs at epithelial or mucosal surfaces, after which virions enter innervating nerve 42 endings, eventually establishing lifelong infection in neurons of the sensory or autonomic 43 nervous system. Recent data have highlighted the genetic diversity of HSV-1 strains, and 44 demonstrated apparent geographic patterns in strain similarity. Though multiple HSV-1 genomes 45 have been sequenced from Europe to date, there is a lack of sequenced genomes from Nordic 46 countries. Finland's history includes at least two major waves of human migration, suggesting 47 Importance 59 Herpes simplex viruses (HSV) infect a majority of adults. Recent data have highlighted the 60 genetic diversity of HSV-1 strains, and demonstrated apparent genomic relatedness between 61 strains from the same geographic region. We use HSV-1 clinical isolates from Finland to test the 62 relationship between viral genomic and geographic relationships, differences in specific genes, 63 and characteristics of viral infection. We found that viral isolates from Finland separated into 64 two distinct groups of genomic and geographic relatedness, potentially reflecting historical 65 patterns of human and viral migration into Finland. These Finland HSV-1 isolates had distinct 66 infection characteristics in multiple cell types tested, which were specific to each isolate and did 67 not group according to genomic and geographic relatedness. This demonstrates that HSV-1 strain 68 differences in specific characteristics of infection are set by a combination of host cell type and 69 specific viral gene-level differences. 70 71

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Jenni Lehtinen

Comparison of Herpes Simplex Virus 1 Strains Circulating in Finland Demonstrates the Uncoupling of Whole-Genome Relatedness and Phenotypic Outcomes of Viral Infection

Topical Treatment of Herpes Simplex virus Infection with Enzymatically Created siRNA Swarm

Inhibition of clinical pathogenic herpes simplex virus 1 strains with enzymatically created siRNA pools

Herpes Simplex Virus Type 1 Clinical Isolates Respond to UL29-Targeted siRNA Swarm Treatment Independent of Their Acyclovir Sensitivity

Comparison of HSV-1 strains circulating in Finland demonstrates the uncoupling of whole-genome relatedness and phenotypic outcomes of viral infection

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