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Chemical information is one of the most important modes of communication among aquatic organisms. However, it remains unclear whether fish embryos are innately responsive to ecologically-related chemical cues from the cues of their cohort competitors, potential caring or risky cues from parents, or chemical alarm cues from damaged embryos, and whether these response patterns differ between species that model alternative parental care strategies. Here, we examined embryo responses in heart rate and incubation performance to different conspecific chemical cues (companion embryo odours, maternal odours, maternal + companion odours, embryonic alarm cues, or water controls) in zebrafish ( ; no parental care) and Nile tilapia ( ; high parental care). Zebrafish embryos did not respond to companion embryo odours but did respond similarly to maternal odours and alarm cues consistent with detecting elevated risk levels. In contrast, Nile tilapia embryos only demonstrated significant risk responses to embryonic alarm cues. These findings indicate that embryos of both species can innately recognize alarm cues but differ in their response patterns to conspecific odours. The results highlight that parental care strategies may influence intergenerational chemical communication in fish embryos.

The Qinling Lenok (Brachymystax tsinlingensis), an endangered teleost fish species endemic to China's Qinling Mountains, faces critical conservation challenges under climate change. Zhou et al. applied Maximum Entropy (MaxEnt) model to predict its potential suitable habitats under global warming and anthropogenic pressures, rightly emphasizing the urgency of protective measures (Ecology and Evolution, 2025, 15:e71427, https://doi.org/10.1002/ece3.71427). However, their study contains two critical flaws: taxonomic misidentification (erroneously conflating this Chinese endemic with Korean Brachymystax congeners) and spatial extrapolation errors (unjustified expansion of the research area beyond the species' native range), thereby compromising biogeographic accuracy and risking distributional misinterpretations. In this study, we rectifies taxonomic ambiguities by reaffirming the valid Latin binomial and strict endemicity of Brachymystax tsinlingensis, exposing methodological limitations in the existing distribution modeling framework. Therefore, we propose targeted enhancements—including refined species‐specific parameterization and spatially constrained climate scenarios—to improve predictive reliability for this endangered species under anthropogenic climate forcing. Brachymystax tsinlingensis is an endangered teleost fish species endemic to China's Qinling Mountains. Zhou et al.'s (2025) study contains two critical flaws: taxonomic misidentification and spatial extrapolation errors, thereby compromising biogeographic accuracy and risking distributional misinterpretations. We propose targeted enhancements—including refined species‐specific parameterization and spatially constrained climate scenarios—to improve predictive reliability for this endangered species under anthropogenic climate forcing.

Brachymystax lenok tsinlingensis is an endangered teleost fish species that occurs in the Qinling Mountain region of China. It also happens to represent the southernmost distribution of an endemic Salmonid fish worldwide. Recently, the habitat of this species shifted towards a higher altitude presumably because of climate change, indicating that this species might be suffering from thermal stress. However, information on the thermal physiology of this species is extremely limited. Accordingly, we investigated the effects of acclimation temperature (6, 12, and 18 °C) on ecologically relevant end points such as critical thermal limits, swimming performance and metabolic rate. Our results showed that elevated acclimation temperatures resulted in increased thermal tolerance and decreased swimming efficiency. High temperature (i.e., 18 °C) did not have a marked effect on the critical swimming speed and the maximum metabolic rate but caused an increase in the energetic cost of transport compared with the results at 12 °C. Interestingly, we found that both the acclimation response ratio and the critical thermal maxima of B. lenok tsinlingensis were higher than that of many other Salmonidae fishes, suggesting that this species responds plastically to temperature changes and has a high thermal tolerance. These characteristics are hypothesized to be related to the southernmost distribution of this species.

Perfluorooctane sulfonate (PFOS) has emerged as one of the most concerning contaminants in recent years. This study aimed to investigate the acute toxicity effect of PFOS on sperm viability, kinematics and fertilization success in zebrafish (Danio rerio). Sperm were activated in aqueous media containing a range of PFOS concentrations (0, 0.09, 0.9 and 9 mg/L). Viabilities and kinematics of the sperm exposed to different PFOS treatments were assessed via computer-assisted sperm analysis (CASA) at 20, 40, 60, and 80 s after activation. PFOS exposure decreased the percentage of motile sperm, the curvilinear velocity (VCL), and the mean angular displacement (MAD) of spermatozoa, but showed no influence on the straight-line velocity (VSL) or the angular path velocity (VAP). Furthermore, a significant decrease in fertilization success was observed in spermatozoa that were exposed to 0.9 mg/L PFOS or more. These findings indicate that PFOS pollution in natural aquatic environment may be a potential threaten to successful reproduction of fish.

Mutualistic relationships confer selective advantages to interacting species through enhanced ecological benefits but may be functionally limited to certain life history stages. However, it is not yet known whether one party can indirectly benefit from risky cues released when the other party is threatened. Larval glochidia of the Chinese pond mussel (Anodonta woodiana) attach to fishes including the rosy bitterling (Rhodeus ocellatus) for dispersal, while reproductive-phase bitterling use the gills of adult mussels as spawning substrate, and their larvae remain inside the host mussel shells until they are capable of swimming. Here, we examined heterospecific responses to risky chemical cues by rosy bitterling as an indirect indicator of species affinity consistent with mutualism at different life history stages, to test for age-dependent response patterns indicating temporal patterning of shared predation risk. Bitterling demonstrated equivocal but similar responses to water controls and mussel odor and significant antipredator responses to bitterling chemical alarm cues (CAC) independent of life stage, while only reproductive adult bitterling demonstrated significant antipredator responses to mussel CAC. These findings suggest that the mutualistic affinity to mussels present in reproductive-phase adult rosy bitterling may result in shared predation risk and therefore provide them with additional indirect antipredator benefits. Our results revealed a life history stage-dependent mutualism in this bitterling-mussel system and describe a novel application of predation risk assays for studying temporal patterning in mutualistic relationships.Significance statementInterspecific interactions, including mutualisms, are a central component of community composition. Some freshwater fishes, including the rosy bitterling, and mussels share an interesting mutualism where each species provides early life habitat to the other. However, does mutualism provide additional indirect benefits? Here, we used responses to conspecific and Chinese pond mussel chemical cues in different life stages of bitterling to identify the occurrence of mutualistic behaviors. We demonstrated that the putative occurrence of mutualistic behaviors in rosy bitterling is not consistent over time and instead varies predictably with reproductive status of different life history stages. This study provides a novel perspective for a deeper understanding of labile interspecific relationships and provides a theoretical basis for indirectly examining mutualisms through chemical communication-based behavioral assays.

To better understand how Batrachupems tibetanus responds to different temperature regimes in the blood parameters and to estimate the change in plasma cortisol level in this species exposed to different temperatures, the animals were stochastically divided into three groups and exposed respectively to 4.6°C, 14.6°C and 19.6°C for 12 days. The concentrations of glucose, total protein, albumin, triacylglycerol, Ca 2+ , K + , Na + , Cl − , and plasma cortisol level were measured respectively. There was no significant difference between the plasma cortisol level of the control group and the experiment groups. Glucose level at 4.6°C and 19.6°C was significantly lower than glucose level at 14.6°C. The plasma triacylglycerol level was significantly influenced by acclimation temperature. The concentration of total protein, albumin, globulin and the ratio between albumin and globulin were not significantly influenced by temperature when compared with control group. There was no significant change in concentration of Ca 2+ at different temperatures. The concentration of K + was significantly influenced by temperature. Plasma K + level significantly increased at 19.6°C. The plasma Na + level and Cl − were significantly influenced by temperature. Na + : Cl − ratio was significantly influenced by temperature. Therefore, glucose, triacylglycerol, Na + and Cl − levels could be considered as indicators of thermal stress in B. tibetanus ; plasma cortisol, albumin, globulin levels, and albumin/globulin ratio are not influenced by temperature.

The mechanism of action of artemisinin and its derivatives, the most potent of the anti-malarial drugs, is not completely understood. Here we present an unbiased chemical proteomics analysis to directly explore this mechanism in Plasmodium falciparum . We use an alkyne-tagged artemisinin analogue coupled with biotin to identify 124 artemisinin covalent binding protein targets, many of which are involved in the essential biological processes of the parasite. Such a broad targeting spectrum disrupts the biochemical landscape of the parasite and causes its death. Furthermore, using alkyne-tagged artemisinin coupled with a fluorescent dye to monitor protein binding, we show that haem, rather than free ferrous iron, is predominantly responsible for artemisinin activation. The haem derives primarily from the parasite’s haem biosynthesis pathway at the early ring stage and from haemoglobin digestion at the latter stages. Our results support a unifying model to explain the action and specificity of artemisinin in parasite killing. The mechanism of action of artemisinin, an antimalarial drug, is not well understood. Here, the authors use a labelled artemisinin analogue to show that the drug is mainly activated by haem and then binds covalently to over 120 proteins in the malaria parasite, affecting many of its cellular processes.

Nanocarriers have therapeutic potential to facilitate drug delivery, including biological agents, small-molecule drugs, and nucleic acids. However, their efficiency is limited by several factors; among which, endosomal/lysosomal degradation after endocytosis is the most important. This review summarizes advanced strategies for overcoming endosomal/lysosomal barriers to efficient nanodrug delivery based on the perspective of cellular uptake and intracellular transport mechanisms. These strategies include promoting endosomal/lysosomal escape, using non-endocytic methods of delivery to directly cross the cell membrane to evade endosomes/lysosomes and making a detour pathway to evade endosomes/lysosomes. On the basis of the findings of this review, we proposed several promising strategies for overcoming endosomal/lysosomal barriers through the smarter and more efficient design of nanodrug delivery systems for future clinical applications.

Abscisic acid (ABA) is the key phytohormone in plant drought tolerance and stress adaptation. The clade A protein phosphatase 2Cs (PP2Cs) like ABI1 (ABA-INSENSITIVE 1) work as coreceptors of ABA and regulate multiple ABA responses. Ubiquitination of ABI1 has been proven to play important regulatory roles in ABA signaling. However, the specific ubiquitin conjugating enzyme (E2) involved is unknown. Here, we report that UBC27 is an active E2 that positively regulates ABA signaling and drought tolerance. UBC27 forms the E2-E3 pair with the drought regulator RING E3 ligase AIRP3. Both UBC27 and AIRP3 interact with ABI1 and affect the ubiquitination and degradation of ABI1. ABA activates the expression of UBC27, inhibits the proteasome degradation of UBC27, and enhances the interaction between UBC27 and ABI1 to increase its activity. These findings uncover a regulatory mechanism in ABA signaling and drought response and provide a further understanding of the plant ubiquitination system and ABA signaling pathway.

Endocytosis is essential to all eukaryotes, but how cargoes are selected for internalization remains poorly characterized. Extracellular cargoes are thought to be selected by transmembrane receptors that bind intracellular adaptors proteins to initiate endocytosis. Here, we report a mechanism for clathrin-mediated endocytosis (CME) of extracellular lanthanum [La(III)] cargoes, which requires extracellular arabinogalactan proteins (AGPs) that are anchored on the outer face of the plasma membrane. AGPs were colocalized with La(III) on the cell surface and in La(III)-induced endocytic vesicles in Arabidopsis leaf cells. Superresolution imaging showed that La(III) triggered AGP movement across the plasma membrane. AGPs were then colocalized and physically associated with the μ subunit of the intracellular adaptor protein 2 (AP2) complexes. The AGP-AP2 interaction was independent of CME, whereas AGP’s internalization required CME and AP2. Moreover, we show that AGP-dependent endocytosis in the presence of La(III) also occurred in human cells. These findings indicate that extracellular AGPs act as conserved CME cargo receptors, thus challenging the current paradigm about endocytosis of extracellular cargoes.