Hypoxia induces melanotic pseudotumors in the larvae of mosquitoes of Culicidae family
The melanotic pseudotumors in insects were predominantly studied in D. melanogaster. This fly has a phenomenon called “melanotic encapsulation”, which is formed as a result of the deposition of melanin grains in the form of pigmented masses on or near the surface of an embedded pathogen. In addition...
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PH Akademperiodyka
2023
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Experimental Oncology| id |
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Experimental Oncology |
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2023-10-11T16:43:48Z |
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English |
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Culicidae |
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Culicidae Buchatskyi, L.P. Hypoxia induces melanotic pseudotumors in the larvae of mosquitoes of Culicidae family |
| topic_facet |
Culicidae Culicidae |
| format |
Article |
| author |
Buchatskyi, L.P. |
| author_facet |
Buchatskyi, L.P. |
| author_sort |
Buchatskyi, L.P. |
| title |
Hypoxia induces melanotic pseudotumors in the larvae of mosquitoes of Culicidae family |
| title_short |
Hypoxia induces melanotic pseudotumors in the larvae of mosquitoes of Culicidae family |
| title_full |
Hypoxia induces melanotic pseudotumors in the larvae of mosquitoes of Culicidae family |
| title_fullStr |
Hypoxia induces melanotic pseudotumors in the larvae of mosquitoes of Culicidae family |
| title_full_unstemmed |
Hypoxia induces melanotic pseudotumors in the larvae of mosquitoes of Culicidae family |
| title_sort |
hypoxia induces melanotic pseudotumors in the larvae of mosquitoes of culicidae family |
| title_alt |
Hypoxia induces melanotic pseudotumors in the larvae of mosquitoes of Culicidae family |
| description |
The melanotic pseudotumors in insects were predominantly studied in D. melanogaster. This fly has a phenomenon called “melanotic encapsulation”, which is formed as a result of the deposition of melanin grains in the form of pigmented masses on or near the surface of an embedded pathogen. In addition to melanin grains, these pigmented masses, as a rule, consist of clusters of adherent hemocytes, or various endogenous tissues encapsulated by these cells [1]. Up to the date, virtually no information on similar pseudotumor structures in blood-sucking mosquitoes has been reported.
Our many-year field studies in natural habitats in the vicinity of Kyiv have demonstrated that in the larvae of blood-sucking mosquitoes of Culicidae family spawning from ovipositors kept under prolonged (6 months) hypoxia at the temperature about 0 °C, numerous small (50–80 µm) melanotic structures of a dark color resembling that in D. melanogaster have been revealed. In control larvae hatching in non-hypoxic conditions, such tumors were very rare. Most often, the symptoms were manifested in stage III–IV larvae, less often in younger stage larvae and pupae. Affected larvae became inactive, convulsively twitching when irritated. At the first stages of the disease, the fatty body and the dorsal parts of the segments of the chest and abdomen were weakly pigmented, later the separate spots of irregular shape appeared.
An electron microscopic study of ultrathin sections of adipose body cells of affected larvae showed a large number of peculiar multilayer concentric membrane-like structures found in the cytoplasm, which have never been found in healthy mosquito larvae (Figure). In the immediate vicinity of such membranes, small spherical virus-like particles (VLP) about 30 nm in diameter were observed.
Figure. Concentric membrane structures in the cytoplasm of cells of Aedes cantans (Mg.) mosquito larvae affected by a melanotic pseudotumor
It is known that in cancer cells of humans and animals, as well as during viral reproduction, often observed are complexes of membrane structures formed by a modified endoplasmic reticulum, as well as a variety of concentric membrane formations called “X-structures”. In planaria Gyratrix hermaphroditus (Turbellaria), similar membrane structures were seen in the cytoplasm of cells along with small VLP [2]. Sometimes these concentric membrane formations were surrounded by several VLP, but more often they were empty. Researchers called them “concentric multilayer membrane structures” and believe that their appearance is associated with the reproduction of the virus.
In our opinion, these small VLP under conditions of prolonged hypoxia could be induced by the transcription factor hypoxia-inducible factor 1-alpha. Under hypoxic conditions, hypoxia-inducible factor 1-alpha could be able to activate the long terminal repeat retrotransposons of the Ty-1-copia family. The latter, as we know, form spherical VLP with a diameter of 30–40 nm in the cells [3]. Such VLP by means of metagenomics method have recently been detected in flies and mosquitoes [4, 5]. Thus, the induction of melanotic pseudotumors in blood-sucking mosquito larvae and the excessive formation of intracellular membranes under hypoxia hypothetically could result from activation of endogenous proviruses. The nature of such pseudotumorous structures deserves further studies. |
| publisher |
PH Akademperiodyka |
| publishDate |
2023 |
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https://exp-oncology.com.ua/index.php/Exp/article/view/2020-4-1 |
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oai:ojs2.ex.aqua-time.com.ua:article-1452023-10-11T16:43:48Z Hypoxia induces melanotic pseudotumors in the larvae of mosquitoes of Culicidae family Hypoxia induces melanotic pseudotumors in the larvae of mosquitoes of Culicidae family Buchatskyi, L.P. Culicidae Culicidae The melanotic pseudotumors in insects were predominantly studied in D. melanogaster. This fly has a phenomenon called “melanotic encapsulation”, which is formed as a result of the deposition of melanin grains in the form of pigmented masses on or near the surface of an embedded pathogen. In addition to melanin grains, these pigmented masses, as a rule, consist of clusters of adherent hemocytes, or various endogenous tissues encapsulated by these cells [1]. Up to the date, virtually no information on similar pseudotumor structures in blood-sucking mosquitoes has been reported. Our many-year field studies in natural habitats in the vicinity of Kyiv have demonstrated that in the larvae of blood-sucking mosquitoes of Culicidae family spawning from ovipositors kept under prolonged (6 months) hypoxia at the temperature about 0 °C, numerous small (50–80 µm) melanotic structures of a dark color resembling that in D. melanogaster have been revealed. In control larvae hatching in non-hypoxic conditions, such tumors were very rare. Most often, the symptoms were manifested in stage III–IV larvae, less often in younger stage larvae and pupae. Affected larvae became inactive, convulsively twitching when irritated. At the first stages of the disease, the fatty body and the dorsal parts of the segments of the chest and abdomen were weakly pigmented, later the separate spots of irregular shape appeared. An electron microscopic study of ultrathin sections of adipose body cells of affected larvae showed a large number of peculiar multilayer concentric membrane-like structures found in the cytoplasm, which have never been found in healthy mosquito larvae (Figure). In the immediate vicinity of such membranes, small spherical virus-like particles (VLP) about 30 nm in diameter were observed. Figure. Concentric membrane structures in the cytoplasm of cells of Aedes cantans (Mg.) mosquito larvae affected by a melanotic pseudotumor It is known that in cancer cells of humans and animals, as well as during viral reproduction, often observed are complexes of membrane structures formed by a modified endoplasmic reticulum, as well as a variety of concentric membrane formations called “X-structures”. In planaria Gyratrix hermaphroditus (Turbellaria), similar membrane structures were seen in the cytoplasm of cells along with small VLP [2]. Sometimes these concentric membrane formations were surrounded by several VLP, but more often they were empty. Researchers called them “concentric multilayer membrane structures” and believe that their appearance is associated with the reproduction of the virus. In our opinion, these small VLP under conditions of prolonged hypoxia could be induced by the transcription factor hypoxia-inducible factor 1-alpha. Under hypoxic conditions, hypoxia-inducible factor 1-alpha could be able to activate the long terminal repeat retrotransposons of the Ty-1-copia family. The latter, as we know, form spherical VLP with a diameter of 30–40 nm in the cells [3]. Such VLP by means of metagenomics method have recently been detected in flies and mosquitoes [4, 5]. Thus, the induction of melanotic pseudotumors in blood-sucking mosquito larvae and the excessive formation of intracellular membranes under hypoxia hypothetically could result from activation of endogenous proviruses. The nature of such pseudotumorous structures deserves further studies. The melanotic pseudotumors in insects were predominantly studied in D. melanogaster. This fly has a phenomenon called “melanotic encapsulation”, which is formed as a result of the deposition of melanin grains in the form of pigmented masses on or near the surface of an embedded pathogen. In addition to melanin grains, these pigmented masses, as a rule, consist of clusters of adherent hemocytes, or various endogenous tissues encapsulated by these cells [1]. Up to the date, virtually no information on similar pseudotumor structures in blood-sucking mosquitoes has been reported. Our many-year field studies in natural habitats in the vicinity of Kyiv have demonstrated that in the larvae of blood-sucking mosquitoes of Culicidae family spawning from ovipositors kept under prolonged (6 months) hypoxia at the temperature about 0 °C, numerous small (50–80 µm) melanotic structures of a dark color resembling that in D. melanogaster have been revealed. In control larvae hatching in non-hypoxic conditions, such tumors were very rare. Most often, the symptoms were manifested in stage III–IV larvae, less often in younger stage larvae and pupae. Affected larvae became inactive, convulsively twitching when irritated. At the first stages of the disease, the fatty body and the dorsal parts of the segments of the chest and abdomen were weakly pigmented, later the separate spots of irregular shape appeared. An electron microscopic study of ultrathin sections of adipose body cells of affected larvae showed a large number of peculiar multilayer concentric membrane-like structures found in the cytoplasm, which have never been found in healthy mosquito larvae (Figure). In the immediate vicinity of such membranes, small spherical virus-like particles (VLP) about 30 nm in diameter were observed. Figure. Concentric membrane structures in the cytoplasm of cells of Aedes cantans (Mg.) mosquito larvae affected by a melanotic pseudotumor It is known that in cancer cells of humans and animals, as well as during viral reproduction, often observed are complexes of membrane structures formed by a modified endoplasmic reticulum, as well as a variety of concentric membrane formations called “X-structures”. In planaria Gyratrix hermaphroditus (Turbellaria), similar membrane structures were seen in the cytoplasm of cells along with small VLP [2]. Sometimes these concentric membrane formations were surrounded by several VLP, but more often they were empty. Researchers called them “concentric multilayer membrane structures” and believe that their appearance is associated with the reproduction of the virus. In our opinion, these small VLP under conditions of prolonged hypoxia could be induced by the transcription factor hypoxia-inducible factor 1-alpha. Under hypoxic conditions, hypoxia-inducible factor 1-alpha could be able to activate the long terminal repeat retrotransposons of the Ty-1-copia family. The latter, as we know, form spherical VLP with a diameter of 30–40 nm in the cells [3]. Such VLP by means of metagenomics method have recently been detected in flies and mosquitoes [4, 5]. Thus, the induction of melanotic pseudotumors in blood-sucking mosquito larvae and the excessive formation of intracellular membranes under hypoxia hypothetically could result from activation of endogenous proviruses. The nature of such pseudotumorous structures deserves further studies. PH Akademperiodyka 2023-05-30 Article Article application/pdf https://exp-oncology.com.ua/index.php/Exp/article/view/2020-4-1 10.32471/exp-oncology.2312-8852.vol-42-no-4.15387 Experimental Oncology; Vol. 42 No. 4 (2020): Experimental Oncology; 337 Експериментальна онкологія; Том 42 № 4 (2020): Експериментальна онкологія; 337 2312-8852 1812-9269 10.32471/exp-oncology.2312-8852.vol-42-no-4 en https://exp-oncology.com.ua/index.php/Exp/article/view/2020-4-1/2020-4-1 Copyright (c) 2023 Experimental Oncology https://creativecommons.org/licenses/by-nc/4.0/ |