Acid phosphatase activity in the midgut of honeybee (Apis mellifera L.) larvae

Acid phosphatase activity has been used to characterise lytic activities within honeybee larvae midgut cells. Significant nascent or free acid phosphatase activity was found in the midgut of 2-, 3-, 3.5- and 5-day-old honeybee larvae. Free acid phosphatase in the cytosol of the midgut cells appeared to be a prelude to cellular autolysis. The source of free acid phosphatase activity was not lysosomal as there was no sign of acid phosphatase activity spreading or leaking from lysosomes. The fine structural localization of acid phosphatase in lysosomes and cytoplasm in honeybee larvae was compared with findings previously reported in other insects. © Inra/DIB/AGIB/Elsevier, Pari

Cell death in honeybee (Apis mellifera) larvae treated with oxalic or formic acid

The effects of oxalic (OA) and formic acids (FA) on honeybee larvae in colonies were assessed and evaluated. Cell death was detected by the TUNEL technique for DNA labelling. In 3- and 5-day-old larvae exposed to OA, cell death was found in 25% of midgut epithelial cells 5 h after the treatment, using an “In situ cell death detection kit, AP” (Roche). The level of cell death increased to 70% by the 21st hour and the morphology of the epithelium remained unchanged. Fifty hours after the application, cell death was established in 18% of the epithelial cells of the 3-day-old larvae and had increased to 82% in the 5-day-old larvae. A “DeadEnd” apoptosis detection kit (Promega) showed sporadic cell death mainly in the larval fat body 5 h after treatment. Twenty-one hours after the OA application cell death was found in 4% of the larval midgut epithelial cells. Evaporated formic acid induced extensive apoptotic cell death in the peripheral, cuticular and subcuticular tissues that preceded the cell death of the entire larval body