# Sand fly–associated phlebovirus with evidence of neutralizing antibodies in humans and dogs in Kosovo

**Authors:** Elif Kurum, Xhevat Jakupi, Betim Xhekaj, Katharina Platzgummer, Ina Hoxha, Julia Walochnik, Vít Dvorák, Donjeta Hajdari, Pranvera Abazi, Adelheid G. Obwaller, Jovana Stefanovska, Aleksandar Cvetkovikj, Kurtesh Sherifi, Remi Charrel, Edwin Kniha, Nazli Ayhan

PMC · DOI: 10.1080/22221751.2025.2608407 · 2025-12-22

## TL;DR

A new sand fly-borne virus, Grapi virus, was discovered in Kosovo, with evidence of human and dog exposure, highlighting its potential zoonotic risk.

## Contribution

The discovery and genetic characterization of Grapi virus, along with its seroprevalence in humans and dogs in Kosovo.

## Key findings

- Grapi virus was detected in sand flies and showed high nucleotide identity with Bregalaka virus.
- Seroprevalence studies found 13.0% of humans and 2.7% of dogs had GRPV-specific antibodies.
- GRPV replicated efficiently in mammalian cells, suggesting adaptation to mammalian hosts.

## Abstract

The Balkan Peninsula is a hotspot for sand fly-borne phleboviruses (SbPVs), yet Kosovo had no confirmed viral detection invectors despite serological evidence of human and animal exposure. This study reports the discovery, genetic characterization, and seroprevalence of a novel phlebovirus, Grapi virus (GRPV), in Kosovo. Entomological surveys (2022–2023) collected 3,575 sand flies across seven districts. Morphological and molecular identification revealed Phlebotomus perfiliewi as the dominant species. Pan-phlebovirus RT–PCR screening identified GRPV in seven pools. Complete genome sequencing confirmed its tripartite genome, sharing 97.55-98.70% nucleotide identity with Bregalaka virus, classifying it within the Phlebovirus adanaense species. Phylogenetic analysis revealed segment-specific ancestry, suggesting recombination events between Bregalaka virus, Adana virus, and Medjerda Valley virus. Seroprevalence studies using neutralization assays detected GRPV-specific antibodies in 13.0% of humans and 2.7% of dogs. Human seropositivity peaked in adolescents and declined with age, while dogs showed higher rates in purebred and unhealthy ones. No cross-reactivity with Toscana or Sicilian viruses was observed, indicating distinct immunological responses. GRPV replicated efficiently in Vero cells and more slowly in mosquito cells, suggesting mammalian adaptation. GRPV detection in Kosovo underscores the role of the Balkan region in SbPV emergence. GRPV zoonotic potential is supported by the anthropophilic feeding behaviour of Ph. perfiliewi and by the significant seroprevalence rates in dogs and humans. Limitations include biased human/dog sampling and sparse northern Kosovo coverage. Investigating GRPV pathogenicity and ecology; integrated surveillance and diagnostics are essential for the future.

## Linked entities

- **Species:** Phlebotomus perfiliewi (taxon 59275)

## Full-text entities

- **Diseases:** Sand Fly-Associated Phlebovirus (MESH:C000719189)
- **Species:** Bregalaka virus (no rank) [taxon 2336744], Adana virus (no rank) [taxon 1611877], Homo sapiens (human, species) [taxon 9606], Canis lupus familiaris (dog, subspecies) [taxon 9615], Phlebotomus perfiliewi (species) [taxon 59275], Medjerda Valley virus (no rank) [taxon 1775957], Phlebotominae (sand flies, subfamily) [taxon 7198]

## Figures

9 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12798671/full.md

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Source: https://tomesphere.com/paper/PMC12798671