1. Genomic organization and regulation of three cecropin genes in Anopheles gambiae
X-L Zheng, And L Zheng Insect Mol Biol. 2002 Dec;11(6):517-25. doi: 10.1046/j.1365-2583.2002.00360.x.
Three cecropin genes (AgCecA-C) were identified from Anopheles gambiae, a major vector for malaria in sub-Saharan Africa. These genes form a cluster with AgCecA and AgCecB positioned in opposite orientation, while AgCecC is downstream of AgCecA in the same direction. One intron is present in each of these three genes. Motif searches of promoter regions revealed elements that could be regulated by the NF-kappaB family of transcriptional regulators. The divergent promoter (1186 nucleotides in length) between CecA and CecB and the promoter for CecC were analysed by transfection in An. gambiae cell lines. Results showed that these promoters were up-regulated by lipopolysaccharide. The activity was further elevated when heat-inactivated microbes were used to challenge the cell line. At least one NF-kappaB site was required for inducible expression of both CecA and CecB.
2. Insect immunity: isolation and structure of cecropin D and four minor antibacterial components from Cecropia pupae
D Hultmark, A Engström, H Bennich, R Kapur, H G Boman Eur J Biochem. 1982 Sep;127(1):207-17. doi: 10.1111/j.1432-1033.1982.tb06857.x.
We have investigated low molecular weight antibacterial proteins from the Cecropia moth. Hyalophora cecropia. In addition to the previously described cecropins A and B, five new antibacterial proteins were discovered, the cecropins C, D, E and F, and the factor G. A scheme for the purification of these factors is presented. Cecropin D is a major cecropin, its amino acid sequence, WNPFKELEKVGQRVRDAVISAGPAVATVAQATALAK, shows homology to cecropin A and B. Like these cecropins, cecropin D has a block C-terminal. The previously tentative C-terminal sequence of cecropin A is also confirmed. It is concluded that the three major cecropins, A, B and D, are products of three different genes that are derived from a common ancestor. The cecropins C, E and F were present in very low amounts, and thus their primary structures could not be fully elucidated. Cecropin C has an amino acid sequence that up to residue 37 is identical to the sequence of A, though it lacks the C-terminal blocking group. It may be a precursor or degradation product of cecropin A. The minor cecropin E shows a similar relation to cecropin D. Cecropin F has a single amino acid replacement (17 Asp leads to Asn) compared to cecropin D, and is probably a product of an allele that is present at a low frequency in the population. The primary structure of the factor G could not be determined, however its amino acid composition is different from that of the cecropins. All the major cecropins were found to be efficient against several gram-positive and gram-negative bacterial strains. No significant difference was found between them in their activity against Escherichia coli, though against some less susceptible bacteria the most basic cecropins were more effective, the activity falling in the series B greater than A much greater than D.
3. Bursicon mediates antimicrobial peptide gene expression to enhance crowded larval prophylactic immunity in the oriental armyworm, Mythimna separata
Hailong Kong, Wanghui Jing, Lin Yuan, Chuanlei Dong, Minyuan Zheng, Zhen Tian, Qiuli Hou, Yunxia Cheng, Lei Zhang, Xingfu Jiang, Lizhi Luo Dev Comp Immunol. 2021 Feb;115:103896. doi: 10.1016/j.dci.2020.103896. Epub 2020 Oct 16.
It has been reported that a high population density alters insect prophylactic immunity. Bursicon plays a key role in the prophylactic immunity of newly emerged adults. In this paper, full-length cDNAs encoding the alpha and beta subunits of bursicon in Mythimna separata larvae (Msburs α and Msburs β) were identified. The cDNAs of Msburs α and Msburs β contain open reading frames (ORFs) encoding 145- and 139-amino acid residue proteins, respectively. Multiple alignment sequences and phylogenetic analysis indicated that Msbursicons (Msburs α and Msburs β) are orthologous to bursicons in other lepidopterans. The Msbursicons were expressed throughout all developmental states with higher relative expression during the egg, pupae, and adult stages. Msbursicons (Msburs α and Msburs β) were highly expressed in the ventral nerve cord and brain relative to other tested tissues. Msbursicon expression of larvae subject to high-density treatment (10 larvae per jar) was significantly increased compared with that of the larvae subject to low-density treatment (1 larva per jar) in the whole fourth and fifth instar stages. The trend in the expression of the antimicrobial peptide (AMP) genes cecropin C and defensin in the test stage was accorded and delayed with increased expression of bursicons. Silencing Msburs α (or Msburs β) expression by dsRNA injection in larvae subject to high-density treatment significantly decreased the expression levels of the cecropin C and defensin genes. Recombinant Msbursicon homodimers significantly induced the expression of the cecropin C and defensin genes. There was a notable decrease in the survival rate of the Msburs α (or Msburs β or Mscecropin C or Msdefensin) knockdown larvae infected by Beauveria thuringiensis. Our findings provide the first insights into how larval density mediates AMP gene expression, which subsequently affects the prophylactic immunity of insects under high-density conditions.