We have examined the replication and tissue distribution of the alphavirus Sindbis in the mosquito Aedes albopictus. Parenteral inoculation of virus resulted in an acute infection accompanied by rapid virus replication and a persistent infection, during which total virus production was reduced. Acute and persistent phase virus RNA synthesis, virus production, and organ-specific distribution of infection were determined over an 18-day incubation period. Organs were classified as refractory (ovarioles, Malpighian tubules), cleared (head ganglia), transient (salivary glands, anterior midgut, posterior midgut, and thoracic muscle), or persistent (fat bodies-hemolymph, hindgut, and tracheole-associated cells) according to the onset, peak, and duration of Sindbis virus antigens within that particular organ. Virus was identified in respiratory tissue by immunological and ultrastructural methods. This represents a novel tropism for an alphavirus. These findings demonstrate that the cells of mature insect organs respond differently to virus infection. Correlations among virus replication, virus RNA synthesis, and organ-specific clearing of a pantropic infection were observed. We suggest that the underlying temporal and spatial kinetics that characterize this virus-invertebrate interaction may reflect a mechanism for the modulation of the arbovirus titer seen in the mosquito host.
SUMMARY We have previously demonstrated the involvement of carbonic anhydrase (CA)in larval mosquito midgut physiology. In this study, we used Hansson's histochemistry to examine the distribution of the enzyme in the midgut of Aedes aegypti, Aedes albopictus, Culex quinquefasciatus, Culex nigripalpus, Ochlerotatus taeniorhynchus, Anopheles albimanus and Anopheles quadrimaculatus adult mosquitoes. Additionally, we quantitated CA content in the anterior and posterior midgut of adult males and females from these species using the 18O isotope exchange method coupled to mass spectrometry. We also tested the effect of CA inhibitors such as methazolamide and acetazolamide in the alkalization of the midgut in females from these species. Our results indicate that CA is present in the midgut of adults from the species studied and that it appears to be preferentially associated with the posterior midgut in both males and females. CA inhibitors appear to have a profound effect on midgut pH indicating that this enzyme might play a key role in the maintenance of this pH.
Virus dissemination and associated pathology were examined in Aedes albopictus after intrathoracic inoculation of Sindbis virus (SIN), the prototypic Alphavirus. At 10 days postinfection, virus RNA was detected in all three-body segments of the insect. Colocalization of virus antigen with structural pathology was observed in mosquito salivary glands and midgut-associated visceral muscles, representing yet another example of arbovirus-associated pathology in a mosquito host. SIN antigen and gross pathology were detected in lateral lobes, but not the medial lobe of salivary glands, whereas virus antigen, vacuolated cytoplasm, and myofilament misalignment were detected in the visceral muscles at the midgut exterior surface. Early in the midgut infection, virus antigen was localized in small foci on the organ surface that progressed to a grate work-like banding pattern that eventually cleared. Both the salivary glands and the midgut are essential to insect survival and reproduction. Additionally, these organs provide a pathway for virus transmission in nature. Although SIN infection may not shorten the mosquito life span, persistent coexistence could permit survival of both host and microbe as well as contribute to alterations in insect behavior.
Apoptosis is observed during a spectrum of conditions including exogenous virus infection and endogenous cellular turnover. Adult female Aedes albopictus mosquitoes challenged with increasing titres of Sindbis virus (SINV) via intrathoracic inoculation demonstrated that the injection dosage did not result in significantly different levels of virus growth or mosquito survival at day 10 post-infection. Tissues probed for apoptosis using an in situ TUNEL assay revealed SINV-associated apoptotic cells scattered throughout the proximal and distal regions of the salivary gland (SG) lateral lobes but which were not detected in the median lobe or the midgut and hindgut. Apoptosis was also identified in SG duct cells in both infected and uninfected mosquitoes, suggesting routine tissue homeostasis. SINV-associated apoptosis sequestered to the SG lateral lobes indicates a differential epithelial cell response to an arbovirus and provides insight into mosquito defence mechanisms against pathogens and SG infection barriers, hurdles to transmission of arboviruses of public health concern.
Aedes aegypti and Aedes albopictus are competent natural and laboratory vectors for numerous arthropod-borne viruses (arboviruses), many of which pose global public health concerns. Efficiently imbibing a blood meal from an artificial membrane feeder, Ae. aegypti is an easy feeder: *96% success. Alternatively, Ae. albopictus is known to be a difficult feeder imbibing poorly: *20% success. Adult female mosquitoes were grouped in cohorts of 50, proffered a bovine blood meal, and challenged with experimental variables, and feeding success was documented. Controls included Ae. aegypti and the artificial glass membrane feeder: topside presentation (upsidedown feeding position only). Variables included lambskin versus bovine collagen sausage membranes, presence or absence of gentle motion, filial generations, and large or small blood packets positioned differently: horizontal presentation (right side-up or nose-up feeding position) and vertical presentation (nose-up feeding position only). Both species preferred sausage casings, and ultrastructural analysis revealed that sausage casings had a textured gripping surface not observed on lambskin membranes. Neither filial generations nor gentle motion improved feeding; however, a 32%-46% increase in blood feeding was observed when Ae. albopictus fed on large horizontal and large or small vertical blood packets. Upside-down feeding of Ae. albopictus with a blood suspension of Sindbis virus heat resistant (SVHR) and the original isolate (AR339) resulted in virus dissemination of 10% and 50%, respectively. Use of bovine collagen sausage membranes in a vertical feeding position will increase the number of engorged females, thereby substantially increasing the number of arbovirus-exposed organisms in the laboratory. Differences in blooding success in response to feeding position further separates the behavior attributes of two Aedine species. Blood meal presentation facilitates gravity and we suggest this is a deciding factor in the feeding success of Ae. albopictus.
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