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1. Activation of the immune deficiency pathway (IMD) reduces the mosquito heart rate via a nitric oxide-based mechanism

   https://doi.org/10.1016/j.jinsphys.2024.104738  

   Estévez-Lao, Tania Y; Martin, Lindsay E; Hillyer, Julián F (March 2025, Journal of Insect Physiology)

   The immune deficiency pathway (IMD) is an important component of the antibacterial, antimalarial and antiviral response in mosquitoes. The IMD pathway also drives the infection induced migration of hemocytes to the heart. During an infection, periostial hemocytes kill pathogens in areas of high hemolymph flow and produce nitric oxide that reduces the heart rate. Here, we investigated the consequences of repressing the IMD pathway by silencing the transcription factor, rel2, or activating the pathway by silencing the negative regulator, caspar, in Anopheles gambiae. In uninfected mosquitoes, repression of the IMD pathway does not affect the circulatory system. However, activating the IMD pathway decreases the heart rate, and this correlates with increased transcription and activity of nitric oxide synthase (NOS), but not increased transcription of the lysozymes, LysC1 or LysC2. In infected mosquitoes, however, activation of the IMD pathway does not affect the heart rate but repression of the pathway decreases the heart rate. This latter phenotype correlates with increased transcription and activity of nitric oxide synthase, which is likely due to an increase in infection intensity. In conclusion, we demonstrate that a major immune signaling pathway that regulates periostial hemocyte aggregation, the IMD pathway, reduces the heart rate via a nitric oxide-based mechanism. 

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2. Extracellular matrix proteins Pericardin and Lonely heart mediate periostial hemocyte aggregation in the mosquito Anopheles gambiae

   https://doi.org/10.1016/j.dci.2024.105219  

   Meier, Cole J; Ahmed, Shabbir; Barr, Jordyn S; Estévez-Lao, Tania Y; Hillyer, Julián F (October 2024, Developmental & Comparative Immunology)

   An infection induces the migration of immune cells called hemocytes to the insect heart, where they aggregate around heart valves called ostia and phagocytose pathogens in areas of high hemolymph flow. Here, we investigated whether the cardiac extracellular matrix proteins, Pericardin (Prc) and Lonely heart (Loh), regulate the infection-induced aggregation of periostial hemocytes in the mosquito, An. gambiae. We discovered that RNAi-based post-transcriptional silencing of Prc or Loh did not affect the resident population of periostial hemocytes in uninfected mosquitoes, but that knocking down these genes decreases the infection-induced migration of hemocytes to the heart. Knocking down Prc or Loh did not affect the proportional distribution of periostial hemocytes along the periostial regions. Moreover, knocking down Prc or Loh did not affect the number of sessile hemocytes outside the periostial regions, suggesting that the role of these proteins is cardiac-specific. Finally, knocking down Prc or Loh did not affect the amount of melanin at the periostial regions, or the intensity of an infection at 24 h after challenge. Overall, we demonstrate that Prc and Loh are positive regulators of the infection-induced migration of hemocytes to the heart of mosquitoes. 

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3. Transglutaminase 3 negatively regulates immune responses on the heart of the mosquito, Anopheles gambiae

   https://doi.org/10.1038/s41598-022-10766-z  

   Yan, Yan; Ramakrishnan, Abinaya; Estévez-Lao, Tania Y.; Hillyer, Julián F. (April 2022, Scientific Reports)

   Abstract The immune and circulatory systems of insects are functionally integrated. Following infection, immune cells called hemocytes aggregate around the ostia (valves) of the heart. An earlier RNA sequencing project in the African malaria mosquito,Anopheles gambiae, revealed that the heart-associated hemocytes, called periostial hemocytes, express transglutaminases more highly than hemocytes elsewhere in the body. Here, we further queried the expression of these transglutaminase genes and examined whether they play a role in heart-associated immune responses. We found that, in the whole body, injury upregulates the expression ofTGase2, whereas infection upregulatesTGase1,TGase2andTGase3. RNAi-based knockdown ofTGase1andTGase2did not alter periostial hemocyte aggregation, but knockdown ofTGase3increased the number of periostial hemocytes during the early stages of infection and the sequestration of melanin by periostial hemocytes during the later stages of infection. In uninfected mosquitoes, knockdown ofTGase3also slightly reduced the number of sessile hemocytes outside of the periostial regions. Taken altogether, these data show thatTGase3negatively regulates periostial hemocyte aggregation, and we hypothesize that this occurs by negatively regulating the immune deficiency pathway and by altering hemocyte adhesion. In conclusion,TGase3is involved in the functional integration between the immune and circulatory systems of mosquitoes. 

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4. The immune and circulatory systems are functionally integrated across insect evolution

   https://doi.org/10.1126/sciadv.abb3164  

   Yan, Yan; Hillyer, Julián F. (November 2020, Science Advances)

   null (Ed.)

   The immune and circulatory systems of mammals are functionally integrated, as exemplified by the immune function of the spleen and lymph nodes. Similar functional integration exists in the malaria mosquito, Anopheles gambiae , as exemplified by the infection-induced aggregation of hemocytes around the heart valves. Whether this is specific to mosquitoes or a general characteristic of insects remained unknown. We analyzed 68 species from 51 families representing 16 orders and found that infection induces the aggregation of hemocytes and pathogens on the heart of insects from all major branches of the class Insecta. An expanded analysis in the holometabolous mosquito, Aedes aegypti , and the hemimetabolous bed bug, Cimex lectularius , showed that infection induces the aggregation of phagocytic hemocytes on the hearts of distantly related insects, with aggregations mirroring the patterns of hemolymph flow. Therefore, the functional integration of the immune and circulatory systems is conserved across the insect tree of life. 

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5. Senescence of humoral antimicrobial immunity occurs in infected mosquitoes when the temperature is higher

   https://doi.org/10.1242/jeb.248149  

   Martin, Lindsay E; Ruiz, Monzerrat; Hillyer, Julián F (November 2024, Journal of Experimental Biology)

   Mosquitoes cannot use metabolism to regulate their body temperature and therefore climate warming is altering their physiology. Mosquitoes also experience a physiological decline with aging, a phenomenon called senescence. Because both high temperature and aging are detrimental to mosquitoes, we hypothesized that high temperatures accelerate senescence. Here, we investigated how temperature and aging, independently and interactively, shape the antimicrobial immune response of the mosquito Anopheles gambiae. Using a zone-of-inhibition assay that measures the antimicrobial activity of hemolymph, we found that antimicrobial activity increases following infection. Moreover, in infected mosquitoes, antimicrobial activity weakens as the temperature rises to 32°C, and antimicrobial activity increases from 1 to 5 days of age and stabilizes with further aging. Importantly, in E. coli-infected mosquitoes, higher temperature causes an aging-dependent decline in antimicrobial activity. Altogether, this study demonstrates that higher temperature can accelerate immune senescence in infected mosquitoes, thereby interactively shaping their ability to fight an infection. 

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