Gabriel Costa Nunes da Cruz scite author profile

The honey bee (Apis mellifera) is a social insect that shows complex and integrated behaviors. Its ability to read and respond to several sets of extrinsic and intrinsic signals is fundamental for the modulation of individual activities and social systems. For instance, A. mellifera behavior changes upon the ontogenetic differentiation from nurse to forager worker subcastes. In this work, brain proteomes of nurses and foragers were compared by two-dimensional gel electrophoresis within pH range of 4-7 in order to find proteins related to such an ontogenetic and behavioral development. Twenty differentially expressed proteins were detected by gel image computational analysis, and identified by peptide mass fingerprinting using MALDI-TOF mass spectrometry. Nurse brain showed increased expression of major royal jelly proteins (MRJP1, MRJP2 and MRJP7), which are related to determination of castes during the honey bee larvae differentiation. Immunocytochemistry and electron microscopy showed that MRJP1 was localized in the cytoplasm of brain cells, seemingly along filaments of the cytoskeleton, in the antennal lobe, optical lobe and mushroom body. Also, MRJP1 was deposited on the rhabdom, a structure of the retinular cells, composed of numerous tubules. Such evidence suggests that MRJP1 could be associated to proteins of filamentous structures. MRJP1 was also found in intercellular spaces between cells in mushrooms bodies, indicating that it is a secreted protein. Other proteins implicated in protein synthesis and putative functions in the olfactory system were also up-regulated in the nurse brain. Experienced foragers overexpressed proteins possibly involved in energy production, iron binding, metabolic signaling and neurotransmitter metabolism. Such differential expression of proteins may be related to ontogenetic and behavior changes in A. mellifera.

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Worker Honeybee Brain Proteome

Hernández

Cruz

et al. 2012

J. Proteome Res.

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A large-scale mapping of the worker-honeybee brain proteome was achieved by MudPIT. We identified 2,742 proteins from forager and nurse honeybee brain samples, 17% of the total proteins were found to be differentially expressed by spectral count sampling statistics and a G-test. Sequences were compared with the EuKaryotic Orthologous Groups (KOG) catalog set using BLASTX, and then categorized into the major KOG categories of most similar sequences. According to this categorization, nurse brain showed increased expression of proteins implicated in translation, ribosomal structure and biogenesis (14.5%) compared with forager (1.8%). Experienced foragers overexpressed proteins involved in energy production and conversion, showing an extensive difference in this set of proteins (17%) in relation to the nurse subcaste (0.6%). Examples of proteins selectively expressed in each subcaste were analyzed. A comparison between these MudPIT experiments and previous 2-DE experiments revealed nine coincident proteins differentially expressed in both methodologies.

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Calcium effect and pH-dependence on self-association and structural stability of the Apis mellifera major royal jelly protein 1

et al. 2011

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-The major royal jelly protein 1 (MRJP1) is the main glycoprotein in honey bee royal jelly. In brain tissues, MRJP1 is found in intercellular spaces and associated to cytoskeleton within cells. MRJP1 must be involved in multiple biological functions, yet there is a lack of structural information on the protein. MRJP1 was herein purified from royal jelly and characterized through electrophoresis and mass spectrometry as the same protein found in cerebral tissue. Unfolding curves obtained by circular dichroism analyses strongly suggest its high stability under different pHs. However, calcium ions made MRJP1 susceptible to temperature and pH effects. In the presence of 2 mM calcium, very high stabilities were achieved at pH 6.0 and 7.0 with ΔG 25 over 62 kJ mol −1 . Overall, the present results represent a valuable effort aimed at the structural characterization of MRJP1, representing an essential step toward the determination of its roles in honey bee neural processes.MRJP1 / Apis mellifera / protein stability / mass spectrometry / circular dichroism

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Overexpression of myosin-IIB in the brain of a rat model of streptozotocin-induced diabetes

Calábria

Cruz

Nascimento

et al. 2011

Journal of the Neurological Sciences

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The Ca(2+)/calmodulin complex interacts with and regulates various enzymes and target proteins known as calmodulin-binding proteins (CaMBPs). This group of proteins includes molecular motors such as myosins. In this study, we show that non-muscle myosin-IIB is overexpressed in the brains of diabetic rats. We isolated CaMBPs from the brains of non-diabetic rats and rats with streptozotocin-induced diabetes and purified them by immobilized-calmodulin affinity chromatography. The proteins were eluted with EGTA and urea, separated by SDS-PAGE, digested and submitted to peptide mass fingerprinting analysis. Thirteen intense bands were found in both types of brains, two were found exclusively in non-diabetic brains and four were found exclusively in diabetic brains. A large fraction of the eluted proteins contained putative IQ motifs or calmodulin-binding sites. The results of the myosin-IIB affinity chromatography elution, western blot and RT-PCR analyses suggest that myosin-IIB protein and mRNA are expressed at high levels in diabetic brains. This is the first study that has demonstrated differential expression of CaMBPs in diabetic and non-diabetic brain tissue through a comparative proteomic analysis, and it opens up a new approach to studying the relationship between the expression of myosins in the brain, hyperglycemia and intracellular calcium regulation.

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