Proteolytic enzymes of female Anopheles: biphasic synthesis, regulation, and multiple feeding.
1995
Horler E. | Briegel H.
Two types of trypsin activity were detected in Anopheles alhimanus, a constitutive and an inductive component, which have identical immunopatterns. The constitutive trypsin in synthesized shortly after eclosion and is retained in the midgut epithelial cells. The inductive trypsin is synthesized and released continuously atter a blood meal has been ingested; maximal activities vary between 12 h and 18 h after a blood meal. Once digestion is completed, trypsin is excreted, but the constitutive trypsin level is restored within 24 h, before the next blood meal is taken. In A. gambiae, A. stephensi, and A. quadrimaculatus, the constitutive trypsin component is also present, but at much lower levels. In A. albimanus fed multiple blood meals at 24 h intervals, trypsin oscillates at nearly maximal levels as long as blood is present in the midgut and depending on the ovarian status. Expression of the two trypsin components in A. albimanus was found to be independent of the neurosecretory system, but synthesis of the constitutive trypsin appears to require the presence of the corpora allata. In all species tested, chymotrypsin is secreted after a blood meal in a similar temporal pattern as trypsin, but it is never present before the blood meal. Reinvestigating several aedine species for the presence of chymotrypsin by using different substrates revealed measurable quantities in blood-fed females compared to earlier reports. Equally, aminopeptidase activity is present in all species tested and characterized by a constitutive component. Its activities follow different temporal patterns than the endopeptidases.
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