Abstract

Hexamerins are insect storage proteins abundantly secreted by the larval fat body into the haemolymph. The canonical role of hexamerins consists of serving as an amino acid reserve for development toward the adult stage. However, in Apis mellifera, immunofluorescence assays coupled to confocal laser-scanning microscopy, and high-throughput sequencing, have recently shown the presence of hexamerins in other organs than the fat body. These findings have led us to study these proteins with the expectation of uncovering additional functions in insect development. We show here that a honeybee hexamerin, HEX 110, localizes in the cytoplasm and nucleus of ovarian cells. In the nucleus of somatic and germline cells, HEX 110 colocalized with a nucleolar protein, fibrillarin, suggesting a structural or even regulatory function in the nucleolus. RNase A provoked the loss of HEX 110 signals in the ovarioles, indicating that the subcellular localization depends on RNA. This was reinforced by incubating ovaries with pyronin Y, a RNA-specific dye. Together, the colocalization with fibrillarin and pyronin Y, and the sensitivity to RNase, highlight unprecedented roles for HEX110 in the nucleolus, the nuclear structure harbouring the gene cluster involved in ribosomal RNA production. However, the similar patterns of HEX 110 foci distribution in the active and inactive ovaries of queens and workers preclude its association with the functional status of these organs.

Highlights

  • IntroductionThe fat body of holometabolous insects synthesizes and secretes a large quantity of proteins

  • Through the larval stage, the fat body of holometabolous insects synthesizes and secretes a large quantity of proteins

  • The results shown in the current work are based on immunofluorescence microscopy, a method generally used to assess the localization of proteins of interest in cells and tissues

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Summary

Introduction

The fat body of holometabolous insects synthesizes and secretes a large quantity of proteins. These larval storage proteins that increase considerably in the hemolymph up to the last larval instar have been mostly identified as hexamerins because they are generally composed by six polypeptide subunits. The storage proteins are sequestered from the hemolymph by the fat body where they are compacted in protein granules for further recycling. This was first demonstrated in Calpodes ethlius [5], but it is a general occurrence among insects [6]

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