Haemoproteus, Harl & Fauchois & Puech & Gey & Ariey & Izac & Weissenböck & Chakarov & Iezhova & Valkiunas & Duval, 2024

Morphological characteristics of Haemoproteus View in CoL parasites

Among French accipitriform raptor samples, 77/413 (18.6%) were positive for Haemoproteus parasites following microscopic examination of blood films, 53 Buteo buteo , 22 Accipiter nisus , and 2 Circus aeruginosus . These samples were therefore chosen for molecular screenings. In the case of the samples from Austria, the blood films were only available from a subset of individuals kept at the clinic. The samples from Germany originated from 832 nestlings sampled between 2019 and 2022. Blood smears and DNA were available for all samples. Among the German nestling samples, 69 were PCR-positive for hBUBT1 and therefore targeted for close microscopic examination.

The examination of all blood films revealed the presence of two distinct Haemoproteus morphospecies based on morphological characteristics of the gametocytes. The microscopypositive samples that were confirmed positive for Haemoproteus spp. by PCR were then used for the molecular characterisation of the found parasite species.

The Haemoproteus parasites seen in A. nisus (lineage hACCNIS06) belonged to H. nisi . Haemoproteus parasites observed in blood films of C. aeruginosus (lineage hCIAE08) were morphologically similar to H. nisi but several minor morphological differences were visible; this parasite was considered a variant of H. nisi . Haemoproteus parasites observed in blood films of all PCR-positive and microscopically examined B. buteo from Germany, Austria, and France were morphologically similar and described as Haemoproteus multivacuolatus n. sp. Descriptions of the parasites found are given below.

Morphological characterisation of H. nisi Peirce and Marquiss, 1983 , the parasite lineage hACCNIS06 found in the type host A. nisus ( Figs. 1a–1h View Figure 1 , Table 1 View Table 1 )

The main diagnostic characters of H. nisi from A. nisus coincide with former descriptions [ 44, 53]. Molecular characterisation of this pathogen was developed for the first time, linking H. nisi to the cytb lineage hACCNIS06. The main features of the blood stages of this lineage are as follows.

Macrogametocytes and microgametocytes grow around the nucleus of infected erythrocytes, they markedly enclose the nucleus with their ends but do not displace or only slightly displace it laterally ( Figs. 1a–1h View Figure 1 ). Young and growing gametocytes tend to not adhere to the erythrocytes’ nuclei ( Figs. 1b, 1e View Figure 1 ). The central part of the advanced growing gametocytes is closely appressed to the erythrocyte’ s envelope, but the ends of the gametocytes usually do not ( Figs. 1b, 1c, 1g View Figure 1 ). Advanced growing gametocytes often do not adhere to the erythrocyte’ s nucleus ( Figs. 1b, 1e View Figure 1 ), but forms adhering to the nucleus are also common ( Figs. 1c, 1f, 1g View Figure 1 ). Fully grown gametocytes are appressed to the nucleus and envelop of infected erythrocytes ( Figs. 1d, 1h View Figure 1 ); they are circumnuclear and often completely encircle the nucleus ( Figs. 1d, 1h View Figure 1 ) and can occasionally even occupy the entire cytoplasmic space in infected erythrocytes. The cytoplasm of the macrogametocytes is granular in appearance and contains a few small vacuoles ( Figs. 1b, 1h View Figure 1 ). Volutin granules are abundant and clumped; they obscure pigment granules ( Figs. 1b–1d, 1f–1h View Figure 1 ). The outline of the gametocytes varies markedly; it can be even, slightly wavy, or ameboid. The macrogametocytes’ nuclei are compact, variable in form, and median or sub-median in position ( Figs. 1a, 1b View Figure 1 ). The pigment granules are predominantly oval, sometimes roundish, of medium size (0.5–1 µm), randomly scattered throughout the cytoplasm. The configuration of microgametocytes ( Figs. 1e–1h View Figure 1 ) resembles that of the macrogametocytes with the usual sexual dimorphic characters, which are the paler stained cytoplasm, the diffuse centrally located nucleus and the predominant gathering of pigment granules close to the ends of the gametocytes ( Figs. 1f–1h View Figure 1 ). Voucher blood preparation of H. nisi lineage hACCNIS06 (accession no. MNHN-IR- 2023-01, 12 September 2013, HFS Goupil connexion, Hérault, France, collected by Dr. DVM Marie-Pierre Puech) was deposited in the Muséum National d’ Histoire Naturelle, Paris. Representative DNA sequences: Mitochondrial cytb lineage hACCNIS06 (GenBank accession OR078933 and OR078931).

Morphological characterisation of H. nisi Peirce and Marquiss, 1983 , the parasite lineage hCIAE08 found in an additional (non-type) host C. aeruginosus (lineage hCIAE08, Figs. 2a–2l View Figure 2 , Table 1 View Table 1 ).

The main diagnostic characters of H. nisi from C. aeruginosus coincide with former descriptions [ 44, 53]. Molecular characterisation of the parasite lineage hCIAE08 was developed for the first time. The main features of hCIAE08 blood stages are as follows.

Macrogametocytes and microgametocytes grow around the nucleus of infected erythrocytes, they markedly enclose the nucleus with their ends but do not displace or only slightly displace it laterally ( Figs. 2a–2l View Figure 2 ). The central part of the growing gametocytes predominantly adheres to the erythrocyte envelope but the ends of the gametocyte usually do not ( Figs. 2c–2f, 2i–2k View Figure 2 ); the advanced growing gametocytes tend to adhere to nuclei of infected erythrocytes ( Figs. 2b, 2d View Figure 2 ), but gametocytes not adhering to the nuclei were also seen ( Figs. 2c, 2e, 2i View Figure 2 ). Fully grown gametocytes are circumnuclear; they often nearly completely or completely encircle the nuclei ( Figs. 2f–2h View Figure 2 ) and can occasionally occupy the entire cytoplasmic space in infected erythrocytes. The cytoplasm of the macrogametocyte is heterogeneous in appearance and contains a few small vacuoles ( Figs. 2d, 2g, 2l View Figure 2 ); volutin is present and seen as densely stained clamps of variable shape ( Figs. 2d, 2e, 2g, 2h, 2i View Figure 2 ); the volutin might obscure the pigment granules, but not noticeably ( Fig. 2h View Figure 2 ). The outline of gametocytes varies markedly; it can be even, slightly wavy or ameboid. The nuclei of the macrogametocyte are compact, variable in form, and median or sub-median in position ( Figs. 2c, 2d, 2h View Figure 2 ). The pigment granules are roundish or oval, of medium size (0.5–1 µm), and randomly scattered throughout the cytoplasm ( Figs. 2d, 2f, 2i, 2k View Figure 2 ). The configuration of the microgametocytes ( Figs. 2i–2l View Figure 2 ) resembles that of the macrogametocytes with the usual sexual dimorphic characters, which are the paler stained cytoplasm, diffuse centrally located nuclei ( Figs. 2i, 2l View Figure 2 ) and the predominant gathering of pigment granules close to ends of the gametocytes ( Figs. 2i, 2j, 2l View Figure 2 ). Volutin is less evident in microgametocytes compared to macrogametocytes (compare Figs. 2e, 2g, 2h and 2i View Figure 2 ). Voucher blood preparation of H. nisi lineage hCIAE08 (accession no. MNHN-IR- 2023-02, 4 April 2019, HFS Goupil connexion, Hérault, France, collected by Dr DVM Marie-Pierre Puech) was deposited in the Muséum National d’ Histoire Naturelle, Paris. Representative DNA sequences: Mitochondrial cytb lineage hCIAE08 (GenBank accession OR078934).

Haemoproteus gametocytes observed in blood smears of the two C. aeruginosus infected with the parasite lineage hCIAE08 were morphologically similar to H. nisi hACCNIS06, but some differences were seen, mainly regarding the morphology of the volutin, which was more granular in appearance and more densely stained in parasites of the lineage hACCNIS06 (compare Fig. 1 View Figure 1 and Fig. 2 View Figure 2 ).