Nipah virus disease (NVD) is a newly emerged zoonosis with a case fatality rate of 40%-75%. NVD is a severe threat to human health and the development of livestock farming. NVD has become one of the emerging infectious diseases with great concern globally during more than 20 years. Nipah virus (NiV) is a pathogen for NVD, the natural host of which is Fruit bats of the Pteropodidae family. The clinical spectrum of NiV infection is broad, including asymptomatic infection, acute respiratory infection, fatal encephalitis, and even death. Since NiV was first identified in Malaysia in 1999, it has been prevalent mainly in Southeast Asia and South Asia. NiV is primarily transmitted to humans through bat-pig-human, contaminated food. Currently, there are no specific therapeutic drugs and vaccines for NVD. Although there are no cases of NVD reported in China, which has close personnel and trade exchanges with major NVD-endemic countries, and NiV antibody has also been detected in relevant bats. There is a potential risk of importing NVD and domestic outbreaks in the future in this country. This paper provides a systematic review of the research progress in the prevention and control of NVD etiology, epidemiology, clinical manifestations and laboratory diagnosis to help relevant staff to understand NVD more comprehensively and systematically.
Animals ; Chiroptera ; Communicable Diseases, Emerging/prevention & control* ; Disease Outbreaks ; Henipavirus Infections/prevention & control* ; Nipah Virus ; Swine ; Zoonoses/prevention & control*

Animals ; China ; Chiroptera/microbiology* ; Drug Resistance, Bacterial/genetics* ; Enterococcaceae/pathogenicity* ; Genotype ; Gram-Positive Bacterial Infections/microbiology* ; Phenotype ; Virulence ; Whole Genome Sequencing

Coronavirus disease 2019 (COVID-19) pandemic has caused a total of 55 928 327 confirmed cases and 1 344 003 deaths as of November 19, 2020. But so far the origin of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) that causes this pandemic has remained undetermined. The purpose of this study is to review the current research of SARS-CoV-2 and the existing problems therein, which may provide inspiration for further researches. Existing evidence suggested that SARS-CoV-2 may be derived from bat coronavirus 40-70 years ago. During the evolution, this virus underwent extensive variations in the process of mutations and natural selection. Different genomic regions of SARS-CoV-2 may have different selection pressures, but all of which increase the difficulty of tracing the origin of this virus. A wide variety of animals have been considered as potential hosts of SARS-CoV-2, including cats, lions, tigers, dogs and minks. SARS-CoV-2 has a chance to transmit from humans to animals and can be transmitted among animals. Current research evidence has shown that China is not the original source of SARS-CoV-2. It is still unclear how the virus spreads to human, and efforts are still need to be made to explore the origin of SARS-CoV-2, its hosts and intermediate hosts, and the mechanism of its transmission across different species of animals.
Animals ; COVID-19/transmission* ; Cats ; China ; Chiroptera/virology* ; Disease Vectors ; Dogs ; Evolution, Molecular ; Humans ; SARS-CoV-2/classification*

Levodropropizine is commonly used as an antitussive drug for acute and chronic cough. It is a non-opioid agent with peripheral antitussive action via the modulation of sensory neuropeptide levels in the airways. Thus, levodropropizine has a more tolerable profile than opioid antitussives. However, we experienced 3 cases of levodropropizine-induced anaphylaxis. Three patients commonly presented with generalized urticaria, dyspnea, and collapse after taking cold medication including levodropropizine. To find out the culprit drug, we performed skin tests, oral provocation tests (OPTs), and basophil activation tests (BATs). Two patients were confirmed as having levodropropizine-induced anaphylaxis by OPTs, and one of them showed positive to skin prick tests (SPTs). The other patient was confirmed by skin tests and BATs. When we analyzed pharmacovigilance data related to levodropropizine collected for 5 years, most cases (78.9%) had allergic reactions, such as rash, urticaria, angioedema, and anaphylaxis. Therefore, physicians should consider that levodropropizine can be a culprit drug, when anaphylaxis occurs after taking anti-cough or common cold medication.
Anaphylaxis* ; Angioedema ; Antitussive Agents ; Basophils ; Chiroptera ; Common Cold ; Cough ; Drug-Related Side Effects and Adverse Reactions ; Dyspnea ; Exanthema ; Humans ; Hypersensitivity ; Neuropeptides ; Pharmacovigilance ; Skin ; Skin Tests ; Urticaria

Hodgson's bats are critically endangered in South Korea. This study analyzed the concentrations of elements in liver, kidney, and intestine tissues from a Hodgson's bat found dead in the wild. The concentrations of essential elements followed the order Fe > Zn > Cu >Mn > Se in the three tissues. Hg was detected at the highest concentrations among the non-essential elements analyzed in the liver and kidney tissues, while As was the most highly concentrated non-essential element in the intestine. To the best of our knowledge, this is the first study of tissue element concentrations in Hodgson's bats.
Chiroptera ; Intestines* ; Kidney* ; Korea ; Liver*

Middle east respiratory syndrome coronavirus (MERS-CoV) was recently identified as a novel human coronavirus known to infect human with high mortality. It belongs to C clade of the betacoronavirus shown the similar genomic structure as other human coronaviruses.To date, some different subtypes of the viral genome were identified but its origin was unclear. Some evidences indicated it maybe came from the bats or dromedary. And series of molecular detection methods have been established and applied in lab and clinic.
Animals ; Camelus ; Chiroptera ; Coronavirus ; Coronavirus Infections ; Genome, Viral ; Genomics ; Humans ; Middle East Respiratory Syndrome Coronavirus

A novel H17N10 subtype of the influenza A viruses was found in bats in 2012. Protein sequence and structural analyses revealed that the HA17 and NA10 proteins of this strain are different from corresponding ones in known influenza A subtype viruses. Both HA17 and NA10 proteins cannot bind to sialic acid,which indicates that they may have novel functions. This article briefly describes the state of current research into the H17N10 subtype of bat influenza A virus.
Animals ; Chiroptera ; virology ; Influenza A virus ; classification ; genetics ; isolation & purification ; metabolism ; Orthomyxoviridae Infections ; veterinary ; virology ; Viral Proteins ; genetics ; metabolism

By using echolocation system echolocating bats have the ability to complete the tasks of detection, localization and classification of the targets. Among the three fundamental tasks, the study of how bats use echolocation to classify targets was investigated later, and most of previous studies were focused on the analysis of simple targets. However, the echoes that bats received are mostly returning from complex objects or structures, which are so complex that they must be described by stochastic statistical approach. In recent years, the study on classification of complex echoes returning from different plants in frequency modulation (FM) bats has made significant progress. In this review article, we will briefly introduce and comment on some progress of studies based on the behavioral evidence, acoustic cues, relevant classification models, and neural bases underlying different classification cues to distinguish plants through classification of echoes in FM bats.
Animals ; Chiroptera ; physiology ; Echolocation ; Nervous System Physiological Phenomena

OBJECTIVETo investigate the prevalence of serum antibodies against Japanese encephalitis virus (JEV) in bats.

METHODSBlood samples from the heart were obtained from bats captured in Guangdong and Hainan Provinces in 2013. The anti-JEV antibodies in bat sera were tested using indirect ELISA and virus neutralization test.

RESULTSA total of 201 bat serum samples were tested, in which the total positivity rate of anti-JEV antibodies was 46.27% (93/201). The positive rate of anti-JEV antibodies in bats from Hainan and Guangdong Provinces was 88.89% (48/54) and 30.61% (45/147), respectively. All the samples from Rousettus leschenaultia, Miniopterus schreibersii, Pipistrellus abramus, and Rhinolophus macrotis were positive for anti-JEV antibodies, and up to 95.56% (43/45) of the samples from Miniopterus schreibersii (from Hainan Province) yielded positive results. Of the 28 samples with positive results by indirect ELISA, 15 showed positive results in virus neutralization test (53.57%) with neutralization antibody titers ranging from 1:10 to 1:28.22.

CONCLUSIONBats from different regions and of different species can be naturally infected with JEV and have a high prevalence of anti-JEV antibodies in their sera. The role of bats in the natural cycle of JEV awaits further study.

Animals ; Antibodies, Viral ; blood ; China ; Chiroptera ; immunology ; virology ; Encephalitis Virus, Japanese ; Enzyme-Linked Immunosorbent Assay ; Neutralization Tests

The ventral nucleus of the lateral lemniscus (VNLL) is an important nucleus in the central auditory pathway which connects the lower brainstem and the midbrain inferior colliculus (IC). Previous studies have demonstrated that neurons in the VNLL could respond to sound signal parameters. Frequency tuning curves (FTCs) of VNLL neurons are generally wider than FTCs of IC neurons, suggesting that the VNLL does not enhance abilities of frequency discrimination and coding. Two types of rate-intensity functions (RIFs) are found in the VNLL: monotonic and non-monotonic RIFs. Intensity-tuning of VNLL neurons are affected by the temporal firing patterns during processing and encoding intensity. There are multiple temporal firing patterns in VNLL neurons. Onset pattern has a precise timing characteristic which is well suited to encode temporal features of stimuli, and also very important to animal behavior including bat's echolocation. The VNLL accepts inputs from lower nuclei, uploads glycine inhibitory outputs to IC, and modulates response characteristics generating and acoustic signal processing of IC neurons. Recent research suggests that fast inhibitory projection from the VNLL may delay the first spike latency of IC neurons, and the delayed inhibitory projection from the VNLL may mediate the temporal firing patterns of IC neurons. But how inhibitory inputs from the VNLL integrate in IC, and how inhibitory inputs from the VNLL enhance the ability of detecting sound signal of IC neurons are not very clear and need more direct evidence at the level of neurons. These questions will help further understand the role of upload during IC processes acoustic signal, which are our research target in the future. This article reviews the current literature regarding the roles of the VNLL in sound signal processing and the auditory ascending transmission, including advances in the relevant research in our laboratory.
Acoustic Stimulation ; Animals ; Auditory Pathways ; Chiroptera ; Echolocation ; Neurons ; physiology ; Pons ; cytology