Drosophila cytokine GBP2 exerts immune responses and regulates GBP1 expression through GPCR receptor Mthl10.

Growth-blocking peptide (GBP), an insect cytokine, was first found in armyworm Mythimna separata. A functional analogue of GBP, stress-responsive peptide (SRP), was also identified in the same species. SRP gene expression has been demonstrated to be enhanced by GBP, indicating that both cytokines are organized within a hierarchical regulatory network.

Booklice Liposcelis bostrychophila are efficiently attracted by the combination of 2,3,5,6-tetramethylpyrazine and ultraviolet light.

Background: Booklice Liposcelis bostrychophila are frequently found almost everywhere, including private houses and cleanrooms of factories and institutes. They often cause serious hygienic as well as agricultural problems, but a useful trap has not been developed so far. Therefore, an effective way to monitor and capture booklice is required.

N-acetyloxfenicine strongly induces mitohormesis in mice as well as in insects.

Mitohormesis defines the increase in fitness induced by adaptive responses to mild mitochondrial stress. Here, we show that N-acetyloxfenicine (NAO) exerted higher thermotolerance than an endogenous mitohormesis inducer, N-acetyltyrosine (NAT). This activity was not observed in armyworm larvae injected with oxfenicine, suggesting the importance of N-acetylation.

Prodigiosin R3, a new multicyclic prodigiosin formed by prodigiosin cyclization genes in the roseophilin producer.

The rph gene cluster for prodigiosin biosynthesis has been identified in Streptomyces griseoviridis 2464-S5, which produces cyclic prodigiosin derivatives including roseophilin (2), prodigiosin R1 (3) and prodigiosin R2 (4). A new cyclic prodigiosin, prodigiosin R3 (1), was produced by the redG redP double disruptant of Streptomyces coelicolor M511 expressing four cyclization gene candidates (rphG, rphG2, rphG3 and rphG4) in the rph cluster. The same compound was isolated from Streptomyces griseoviridis 2464-S5.

13-Deoxo-13-iminodutomycin, a new neuroprotective compound from Streptomyces sp. RAP78.

A neuroprotective compound (2) was isolated from the culture broth of the dutomycin (1) producer Streptomyces sp. RAP78. The molecular formula of 2 was established as CHNO by high-resolution FAB-MS.

Stress-derived reactive oxygen species enable hemocytes to release activator of growth blocking peptide (GBP) processing enzyme.

Insect cytokine growth blocking peptide (GBP) is synthesized as an inactive precursor, termed proGBP, that is normally present in a significant concentration in the hemolymph of non-stressed animals (Hayakawa, 1990, 1991). Under stress conditions, proGBP is instantly processed to active GBP by a serine protease and this is thought to be an important initial step for insects to cope with stress-induced adverse effects via GBP-induced physiological changes. However, the detailed mechanism underlying proteolytic processing of hemolymph proGBP in insects under stress conditions remains unknown.

N-acetyltyrosine-induced redox signaling in hormesis.

A suite of adaptations allows insects to survive in hostile terrestrial environments for long periods of time. Temperature represents a key environmental factor for most ectothermic insects, and they rapidly acclimate to high and low temperatures. Vast amounts of data in this research field support the idea that an insect's ability to tolerate fluctuating temperatures can be regarded as a biphasic hormetic dose response.

The suppressive effect of bacterial-feeding nematodes on hemocyte spreading of Galleria mellonella.

Insect parasitic nematodes have developed a mechanism to escape from the cellular immunity of their insect hosts for successful parasitism. However, the detailed mechanism whereby they achieve this remains unclear. In our previous study, we demonstrated that non-parasitic nematodes such as Caenorhabditis elegans potentially have the ability to escape from the cellular immunity of the greater wax moth Galleria mellonella.

Dunaimycin C3, a new GRP78 downregulator from Streptomyces sp. RAN389.

A new member of the dunaimycin family, dunaimycin C3 (2), was isolated from a fermented broth of Streptomyces sp. RAN389. The molecular formula of 2 was established as CHO by high-resolution FAB-MS, and the structure was elucidated by NMR spectroscopic analyses.

Neocurromycin A, a new GRP78 downregulator from Streptomyces sp. RAI364.

A new curromycin-related compound, neocurromycin A (2), was isolated from the fermented broth of Streptomyces sp. RAI364. The molecular formula of 2 was established as CHNO by ESI-MS and the structure was elucidated by NMR spectroscopic analyses.

N-acetyl-l-tyrosine is an intrinsic triggering factor of mitohormesis in stressed animals.

Under stress conditions, mitochondria release low levels of reactive oxygen species (ROS), which triggers a cytoprotective response, called "mitohormesis". It still remains unclear how mitochondria respond to stress-derived stimuli and release a low level of ROS. Here, we show that N-acetyl-l-tyrosine (NAT) functions as a plausible intrinsic factor responsible for these tasks in stressed animals.

Bacterial feeding nematodes ingest haemocytes in the haemocoel of the insect .

Insect parasitic nematodes have acquired mechanisms to evade their host immune response for successful parasitism. Despite the importance of understanding of the evolution of evasion mechanisms from host immunity, insect immune response against non-parasitic nematodes has not been well studied. In our previous study, we demonstrated that a non-insect parasitic nematode Caenorhabditis elegans was not encapsulated by haemocytes in the larvae of the greater wax moth Galleria mellonella.

Repeated phenotypic selection for cuticular blackness of armyworm larvae decreased stress resistance.

Armyworm Mythimna separata larvae show changes in cuticle darkening depending on population densities and are roughly categorized into two phenotypes, a pale brown solitary type and black-colored gregarious type. Although the color difference in both larval types is apparent, it remains ambiguous whether any change in physiological traits accompanies the cuticle darkening. To answer this query, we repeated genetic selection of the blackness phenotype over one hundred generations in our laboratory colony and produced a black-colored (BL) strain.

Functional Multiplicity of an Insect Cytokine Family Assists Defense Against Environmental Stress.

The widespread distribution of insects over many ecological niches owes much to evolution of multiple mechanisms to defend against environmental stress, especially because their ectothermic nature and small body size render them particularly susceptible to extremes in temperature and water availability. In this review, we will summarize the latest information describing a single, multifunctional cytokine family that is deployed by six orders of insect species to combat a diverse variety of environmental stresses. The originating member of this peptide family was identified in (formerly called ) armyworm; the cytokine was named growth-blocking peptide (GBP), reflecting its actions in combating parasitic invasion.

Comments to Recent Studies Showing Systemic Mechanisms Enabling Larvae to Recover From Stress-Induced Damages.

Compensational recovery from the damage created by stressors is important for all animals. However, how organisms recover from stress-induced negative impacts has been poorly understood. An 1-hour exposure to heat stress at 35°C led to reduced feeding activity of larvae, which caused reduction in body weight 2 hours after the stress, but not at other times.

Pyroxazone, a new neuroprotective compound from Streptomyces sp. RAN54.

A neuroprotective compound designated pyroxazone (1) was isolated from the culture broth of Streptomyces sp. RAN54. The molecular formula of 1 was established as CHNO by high-resolution FAB-MS.

Quinomycins H1 and H2, new cytotoxic antibiotics from Streptomyces sp. RAL404.

Two new cytotoxic antibiotics designated quinomycins H1 (2) and H2 (3) were isolated from the culture broth of Streptomyces sp. RAL404. The molecular formula of both compounds was established as CHNOS by electrospray ionization mass spectrometry (ESI-MS).

Identification of a cytokine combination that protects insects from stress.

Growth-blocking peptide (GBP) and stress-responsive peptide (SRP) are insect cytokines whose expression levels are elevated by various stressful conditions such as parasitization and high or low temperatures. Both GBP and SRP are synthesized as precursors and released into the hemolymph, where they are enzymatically processed to active peptides. Injection of active GBP or SRP into early last instar larvae elicits a reduction in feeding and consequent growth retardation in the armyworm Mythimna separata.

The Drosophila cytokine, GBP: A model that illuminates the yin-yang of inflammation and longevity in humans?

Our laboratories have determined that the Drosophila cytokine, Growth-blocking peptide (GBP), mediates its biological effects through the Mthl10 G-protein coupled receptor. In this Cytokine Stimulus, we discuss the functional plasticity of the GBP/Mthl10 axis, and we propose that conserved components of this regulatory network may be relevant to human health.

Prodigiosin R2, a new prodigiosin from the roseophilin producer Streptomyces griseoviridis 2464-S5.

Roseophilin (2) is a unique prodigiosin-related compound produced by Streptomyces griseoviridis 2464-S5, and is characterized by a central furan ring and a bicyclic alkyl chain. During a search for biosynthetic intermediates of 2, a new metabolite designated prodigiosin R2 (1) was isolated from the culture of the roseophilin producer. The molecular formula of 1 was established as CHNO by high-resolution FAB-MS.

Cytokine signaling through Mthl10 ties lifespan to environmental stress.

A systems-level understanding of cytokine-mediated, intertissue signaling is one of the keys to developing fundamental insight into the links between aging and inflammation. Here, we employed , a routine model for analysis of cytokine signaling pathways in higher animals, to identify a receptor for the growth-blocking peptide (GBP) cytokine. Having previously established that the phospholipase C/Ca signaling pathway mediates innate immune responses to GBP, we conducted a dsRNA library screen for genes that modulate Ca mobilization in S3 cells.

A gene-driven recovery mechanism: Drosophila larvae increase feeding activity for post-stress weight recovery.

Recovery from weight loss after stress is important for all organisms, although the recovery mechanisms are not fully understood. We are working to clarify these mechanisms. Here, we recorded enhanced feeding activity of Drosophila melanogaster larvae from 2 to 4 h after heat stress at 35°C for 1 h.

Heat stress hardening of oriental armyworms is induced by a transient elevation of reactive oxygen species during sublethal stress.

Pre-exposure to mild heat stress enhances the thermotolerance of insects. Stress hardening is a beneficial physiological plasticity, but the mechanism underlying it remains elusive. Here we report that reactive oxygen species (ROS) concentrations were quickly and transiently elevated in the armyworms, Mythimna separata, by exposing them to 40°C, but not other tested temperatures.

Characterization of Venom and Oviduct Components of Parasitoid Wasp Asobara japonica.

During natural parasitization, Asobara japonica wasps introduce lateral oviduct (LO) components into their Drosophila hosts soon after the venom injection to neutralize its strong toxicity; otherwise, the host will die. Although the orchestrated relationship between the venom and LO components necessary for successful parasitism has attracted the attention of many researchers in this field, the molecular natures of both factors remain ambiguous. We here showed that precipitation of the venom components by ultracentrifugation yielded a toxic fraction that was inactivated by ultraviolet light irradiation, boiling, and sonication, suggesting that it is a virus-like entity.