Intra-specific variation in female remating in Callosobruchus chinensis and C. maculatus

The effects of mating duration on female remating (exp. 1) and under different male densities (exp. 2) were examined in two strains of the adzuki bean beetle, Callosobruchus chinensis and in one strain of the bruchid beetle, C. maculatus. In experiment 1, the frequency of female remating was markedly different between the two strains of C. chinensis. Females of the jC strain, reared long-term in the laboratory, did not remate after being allowed to mate freely (=monogamy), whereas females of the isC strain, recently established from the field, showed high remating frequencies (=polyandry). In both strains, the frequency of female remating increased after the duration of the first mating was deliberately shortened. The relation between mating duration and remating frequency was significantly different, however, between the two strains. In a closely related species, C. maculatus, which manifests polyandry, this relation was more similar to that of the field-derived (=isC) than to that of the laboratory-derived (=jC) strain of C. chinensis. The reasons for the inter-strain variation observed in the remating frequencies of C. chinensis are also discussed. In experiment 2, the mating duration of the three strains was compared under different male densities. Only the lab-derived strain demonstrated a significantly shorter mating duration when one female was placed together with five males than when paired with one male. The shorter mating duration (approximately 26 s) was similar to that of females allowed to remate in the monogamous strain in experiment 1.     

N‐cadherin regulates the proliferation and differentiation of ventral midbrain dopaminergic progenitors

Adherens junction (AJ) between dopaminergic (DA) progenitors maintains the structure of ventricular zone and polarity of radial glia cells in the ventral midbrain (vMB) during embryonic development. However, it is unclear how loss of N‐cadherin might influence the integrity of the AJ and the process of DA neurogenesis. Here, we used conditional gene targeting approaches to perform the region‐specific removal of N‐cadherin in the neurogenic niche of DA neurons in the vMB. Removal of N‐cadherin in the vMB using Shh‐Cre disrupts the AJs of DA progenitors and radial glia processes in the vMB. Surprisingly, loss of N‐cadherin in the vMB leads to a significant expansion of DA progenitors, including those expressing Sox2, Ngn2, and Otx2. Cell cycle analyses reveal that the cell cycle exit in the progenitor cells is decreased in the mutants from E11.5 to E12.5. In addition, the efficiency of DA progenitors in differentiating into DA neurons is decreased from E10.5 to E12.5, leading to a marked reduction in the number of DA neurons at E11.5, E12.5, and E17.5. Loss of N‐cadherin leads to the diffuse distribution of β‐catenin proteins, which are a critical component of AJ and Wnt signaling, from the AJ throughout the entire cytoplasm in neuroepithelial cells, suggesting that canonical Wnt signaling might be activated in the DA progenitors in vMB. Taken together, these results support the notion that N‐cadherin regulates the proliferation of DA progenitors and the differentiation of DA neurons through canonical Wnt‐β‐catenin signaling in the vMB. © 2013 Wiley Periodicals, Inc. Develop Neurobiol 73: 518–529, 2013     

IL-15 serves as a costimulator in determining the activity of autoreactive CD8 T cells in an experimental mouse model of graft-versus-host-like disease

To elucidate the mechanisms controlling peripheral tolerance, we established two transgenic (Tg) mouse strains expressing different levels of membrane-bound OVA (mOVA) as a skin-associated self-Ag. When we transferred autoreactive TCR-Tg CD8 T cells (OT-I cells), keratin 14 (K14)-mOVA(high) Tg mice developed autoreactive skin disease (graft-vs-host disease (GVHD)-like skin lesions) while K14-mOVA(low) Tg mice did not. OT-I cells in K14-mOVA(high) Tg mice were fully activated with full development of effector function. In contrast, OT-I cells in K14-mOVA(low) Tg mice proliferated but did not gain effector function. Exogenous IL-15 altered the functional status of OT-I cells and concomitantly induced disease in K14-mOVA(low) Tg mice. Conversely, neutralization of endogenous IL-15 activity in K14-mOVA(high) Tg mice attenuated GVHD-like skin lesions induced by OT-I cell transfer. Futhermore, K14-mOVA(high) Tg mice on IL-15 knockout or IL-15Ralpha knockout backgrounds did not develop skin lesions after adoptive transfer of OT-I cells. These results identify IL-15 as an indispensable costimulator that can determine the functional fate of autoreactive CD8 T cells and whether immunity or tolerance ensues, and they suggest that inhibition of IL-15 function may be efficacious in blocking expression of autoimmunity where a breach in peripheral tolerance is suspected.     

Proadrenomedullin N-Terminal 20 Peptide (PAMP), an Endogenous Anticholinergic Peptide: Its Exocytotic Secretion and Inhibition of Catecholamine Secretion in Adrenal Medulla

Abstract: In cultured bovine adrenal medullary cells, stimulation of nicotinic receptors by carbachol evoked the Ca²⁺-dependent exocytotic cosecretion of proadrenomedullin N-terminal 20 peptide (PAMP) (EC₅₀ = 50.1 µ M ) and catecholamines (EC₅₀ = 63.0 µ M ), with the molar ratio of PAMP/catecholamines secreted being equal to the ratio in the cells. Addition of PAMP[1–20]NH₂ inhibited carbachol-induced ²²Na⁺ influx via nicotinic receptors (IC₅₀ = 2.5 µ M ) in a noncompetitive manner and thereby reduced carbachol-induced ⁴⁵Ca²⁺ influx via voltage-dependent Ca²⁺ channels (IC₅₀ = 1.0 µ M ) and catecholamine secretion (IC₅₀ = 1.6 µ M ). It did not alter high K⁺-induced ⁴⁵Ca²⁺ influx via voltage-dependent Ca²⁺ channels or veratridine-induced ²²Na⁺ influx via voltage-dependent Na⁺ channels. PAMP seems to be a novel antinicotinic peptide cosecreted with catecholamines by a Ca²⁺-dependent exocytosis in response to nicotinic receptor stimulation.     

An Inducible Copper-Thiolate Complex in the Fern, Athyrium yokoscense: Involvement in Copper-Tolerance of the Fern

Two peaks of Cu-containing material were isolated from the solublecytoplasmic fraction of roots of Athyrium yokoscense, a fernwith a tolerance for heavy metals, by gel filtration on Bio-GelP-30 and Sephadex G-25. Peak I (apparent molecular weight 9.5kDa) was only observed in the case of ferns growing on Cu-contaminatedsoil. Peak II (apparent molecular weight 2 kDa) was found inextracts of ferns from both Cu-contaminated and uncontaminatedsoil. Peak I was induced in the fern collected from an uncontaminatedarea by cultivation in Cu-contaminated soil for 14 months. Theinduced Cu-binding complex present in peak I, therefore, maybe involved in mechanisms of Cu-tolerance in the fern. The complexwas purified by column chromatography on DEAE-cellulofine andsubsequent high-performance liquid chromatography. The purifiedcomplex contained a high percentage (26.8%) of cysteine, typicalof metal-binding peptides from plants. (Received June 1, 1988; Accepted September 12, 1988)     

High affinity sugar ligands of C-type lectin receptor langerin

Background

Langerin, a C-type lectin receptor (CLR) expressed in a subset of dendritic cells (DCs), binds to glycan ligands for pathogen capture and clearance. Previous studies revealed that langerin has an unusual binding affinity toward 6-sulfated galactose (Gal), a structure primarily found in keratan sulfate (KS). However, details and biological outcomes of this interaction have not been characterized. Based on a recent discovery that the disaccharide L4, a KS component that contains 6-sulfo-Gal, exhibits anti-inflammatory activity in mouse lung, we hypothesized that L4-related compounds are useful tools for characterizing the langerin-ligand interactions and their therapeutic application.

ZEB1 Mediates Acquired Resistance to the Epidermal Growth Factor Receptor-Tyrosine Kinase Inhibitors in Non-Small Cell Lung Cancer

Epithelial-mesenchymal transition (EMT) is one mechanism of acquired resistance to inhibitors of the epidermal growth factor receptor-tyrosine kinases (EGFR-TKIs) in non-small cell lung cancer (NSCLC). The precise mechanisms of EMT-related acquired resistance to EGFR-TKIs in NSCLC remain unclear. We generated erlotinib-resistant HCC4006 cells (HCC4006ER) by chronic exposure of EGFR-mutant HCC4006 cells to increasing concentrations of erlotinib. HCC4006ER cells acquired an EMT phenotype and activation of the TGF-β/SMAD pathway, while lacking both T790M secondary EGFR mutation and MET gene amplification. We employed gene expression microarrays in HCC4006 and HCC4006ER cells to better understand the mechanism of acquired EGFR-TKI resistance with EMT. At the mRNA level, ZEB1 (TCF8), a known regulator of EMT, was >20-fold higher in HCC4006ER cells than in HCC4006 cells, and increased ZEB1 protein level was also detected. Furthermore, numerous ZEB1 responsive genes, such as CDH1 (E-cadherin), ST14, and vimentin, were coordinately regulated along with increased ZEB1 in HCC4006ER cells. We also identified ZEB1 overexpression and an EMT phenotype in several NSCLC cells and human NSCLC samples with acquired EGFR-TKI resistance. Short-interfering RNA against ZEB1 reversed the EMT phenotype and, importantly, restored erlotinib sensitivity in HCC4006ER cells. The level of micro-RNA-200c, which can negatively regulate ZEB1, was significantly reduced in HCC4006ER cells. Our results suggest that increased ZEB1 can drive EMT-related acquired resistance to EGFR-TKIs in NSCLC. Attempts should be made to explore targeting ZEB1 to resensitize TKI-resistant tumors.