Species diversity of soil mites (Acari: Mesostigmata) under different agricultural land use types

Mites are among the most important members of soil arthropod communities, because they are the most diverse in terms of ecological niche and behavior. Due to the sensitivity of soil mites to soil disturbance, their diversity and numbers can be used as ecological indices for assessing disturbances in ecosystems. To determine the effect of land use type on soil mite biodiversity, abundance and biodiversity indices of soil inhabiting mesostigmatic mites were evaluated at eight sites in Saman and Shahrekord, Iran, each site including two adjacent agricultural pieces of land: an orchard and a crop field. The biodiversity of mites was measured by several biodiversity indices and then compared by analysis of variance. The specimens collected belonged to 12 families, 17 genera and 24 species. The biodiversity index values calculated in different months showed that these indices were usually higher in warm months and in orchards than in cold months and crop fields. In the examined crop fields, the diversity index values were lower after harvesting, probably due to soil disturbance by agricultural machinery. There was a significant difference in the Shannon-Wiener's diversity index among different land uses. The maximum and minimum values of this index were recorded at the vine orchard (1.48) and wheat field (0.15) in an elm/wheat site at Shahrekord, respectively. The soil organic matter content was maximum in the vineyard (2.12%) and minimum in the wheat field (0.41%)

First report of Altenia mersinella (Lep.: Gelechiidae: Gelechiinae: Litini), a pest of pistachio, from Iran

During a survey on pistachio, Pistacia vera L., pests in Isfahan, Iran, in 2015, some lepidopteran larvae living and feeding inside galls of the wrinkling pistachio aphid, Forda hirsuta Mordv., were observed. After laboratory rearing of these larvae, the moths were identified as Altenia mersinella (Staudinger, 1879) (Lep.: Gelechiidae) by the third author. This species has previously been reported from Turkey, Cyprus, Syria, Lebanon and Palestine but it is the first report of this species from Iran. Based on the available literature, this is also the first record of a host plant for this species

Assessment of the molecular mechanisms of action of novel 4-phenylpyridine-2-one and 6-phenylpyrimidin-4-one allosteric modulators at the M1 muscarinic acetylcholine receptors

Positive allosteric modulators (PAMs) that target the M1 muscarinic acetylcholine (ACh) receptor (M1 mAChR) are potential treatments for cognitive deficits in conditions such as Alzheimer's disease and schizophrenia. We recently reported novel 4-phenylpyridine-2-one and 6-phenylpyrimidin-4-one M1 mAChR PAMs with the potential to display different modes of positive allosteric modulation and/or agonism (Mistry et al., 2016), but their molecular mechanisms of action remain undetermined. The current study compared the pharmacology of three such novel PAMs with the prototypical first-generation PAM, BQCA, in a recombinant Chinese hamster ovary (CHO) cell line stably expressing the human M1 mAChR. Interactions between the orthosteric agonists and the novel PAMs or BQCA suggested their allosteric effects were solely governed by modulation of agonist affinity. The greatest degree of positive co-operativity was observed with higher efficacy agonists, whereas minimal potentiation was observed when the modulators were tested against the lower efficacy agonist, xanomeline. Each PAM was investigated for its effects on the endogenous agonist, ACh, on three different signalling pathways, (ERK1/2 phosphorylation, IP1 accumulation and β-arrestin-2 recruitment), revealing that the allosteric potentiation generally tracked with the efficiency of stimulus-response coupling and that there was little pathway bias in the allosteric effects. Thus, despite the identification of novel allosteric scaffolds targeting the M1 mAChR, the molecular mechanism of action of these compounds is largely consistent with a model of allostery previously described for BQCA, suggesting that this may be a more generalized mechanism for M1 mAChR PAM effects than previously appreciated

DREADD agonist 21 is an effective agonist for muscarinic-based DREADDs in vitro and in vivo

Chemogenetic tools such as designer receptors exclusively activated by designer drugs (DREADDs) are routinely used to modulate neuronal and non-neuronal signaling and activity in a relatively noninvasive manner. The first generation of DREADDs were templated from the human muscarinic acetylcholine receptor family and are relatively insensitive to the endogenous agonist acetylcholine but instead are activated by clozapine-N-oxide (CNO). Despite the undisputed success of CNO as an activator of muscarinic DREADDs, it has been known for some time that CNO is subject to a low rate of metabolic conversion to clozapine, raising the need for alternative chemical actuators of muscarinic-based DREADDs. Here we show that DREADD agonist 21 (C21) (11-(1-piperazinyl)-5H-dibenzo[b,e][1,4]diazepine) is a potent and selective agonist at both excitatory (hM3Dq) and inhibitory (hM4Di) DREADDs and has excellent bioavailability, pharmacokinetic properties, and brain penetrability. We also show that C21-induced activation of hM3Dq and hM4Di in vivo can modulate bidirectional feeding in defined circuits in mice. These results indicate that C21 represents an alternative to CNO for in vivo studies where metabolic conversion of CNO to clozapine is a concern

Development of novel 4‐arylpyridin‐2‐one and 6‐arylpyrimidin‐4‐one positive allosteric modulators of the M1 muscarinic acetylcholine receptor

This study investigated the structure‐activity relationships of 4‐phenylpyridin‐2‐one and 6‐phenylpyrimidin‐4‐one muscarinic M1 acetylcholine receptor (M1 mAChRs) positive allosteric modulators (PAMs). The presented series focuses on modifications to the core and top motif of the reported leads, MIPS1650 (1) and MIPS1780 (2). Profiling of our novel analogues showed that these modifications result in more nuanced effects on the allosteric properties compared to our previous compounds with alterations to the biaryl pendant. Further pharmacological characterisation of the selected compounds in radioligand binding, IP1 accumulation and β‐arrestin 2 recruitment assays demonstrated that despite primarily acting as affinity modulators, the PAMs displayed different pharmacological properties across the two cellular assays. The novel PAM 7f is a potential lead candidate for further development of peripherally‐restricted M1 PAMs, due to its lower blood‐brain‐barrier (BBB) permeability and improved exposure in the periphery compared to lead 2

Combinations of Plant Water-Stress and Neonicotinoids Can Lead to Secondary Outbreaks of Banks Grass Mite (Oligonychus Pratensis Banks)

Spider mites, a cosmopolitan pest of agricultural and landscape plants, thrive under hot and dry conditions, which could become more frequent and extreme due to climate change. Recent work has shown that neonicotinoids, a widely used class of systemic insecticides that have come under scrutiny for non-target effects, can elevate spider mite populations. Both water-stress and neonicotinoids independently alter plant resistance against herbivores. Yet, the interaction between these two factors on spider mites is unclear, particularly for Banks grass mite (Oligonychus pratensis; BGM). We conducted a field study to examine the effects of water-stress (optimal irrigation = 100% estimated evapotranspiration (ET) replacement, water stress = 25% of the water provided to optimally irrigated plants) and neonicotinoid seed treatments (control, clothianidin, thiamethoxam) on resident mite populations in corn (Zea mays, hybrid KSC7112). Our field study was followed by a manipulative field cage study and a parallel greenhouse study, where we tested the effects of water-stress and neonicotinoids on BGM and plant responses. We found that water-stress and clothianidin consistently increased BGM densities, while thiamethoxam-treated plants only had this effect when plants were mature. Water-stress and BGM herbivory had a greater effect on plant defenses than neonicotinoids alone, and the combination of BGM herbivory with the two abiotic factors increased the concentration of total soluble proteins. These results suggest that spider mite outbreaks by combinations of changes in plant defenses and protein concentration are triggered by water-stress and neonicotinoids, but the severity of the infestations varies depending on the insecticide active ingredient