The nineteenth century neuroscience studied the instinct of animal to understand the human mind. In particular, it has been found that the inheritance of unconscious behavior like instinct is mediated through ganglion chains, such as the spinal cord or sympathetic nervous system, which control unconscious reflexes. At the same time, the theory of Inheritance of Acquired Characteristics (hereafter ‘IAC’) widely known as Lamarck's evolutionary theory provided the theoretical frame on the origin of instinct and the heredity of action that the parental generation's habits were converted into the nature of the offspring generation. Contrary to conventional knowledge, this theory was not originally invented by Lamarck, and Darwin also did not discard this theory even after discovering the theory of natural selection in 1838 and maintained it throughout his intellectual life. Above all, in the field of epigenetics, the theory of ‘IAC’ has gained attention as a reliable scientific theory today. Darwin discovered crucial errors in the late 1830s that the Lamarck version's theory of ‘IAC’ did not adequately account for the principle of the inheritance of unconscious behavior like instinct. Lamarck's theory regarded habits as conscious and willful acts and saw that those habits are transmitted through the brain to control conscious actions. Lamarck's theory could not account for the complex and elaborate instincts of invertebrate animals, such as brainless ants. Contrary to Lamarck's view, Darwin established the new theory of ‘IAC’ that could be combined with contemporary neurological theory, which explains the heredity of unconscious behavior. Based on the knowledge of neurology, Darwin was able to translate the ‘principle of habit’ into a neurological term called ‘principle of reflex’. This article focuses on how Darwin join the theory of ‘IAC’ with nineteenth century neuroscience and how the neurological knowledge from the nineteenth century contributed to Darwin's overcoming of Lamarck's ‘IAC’. The significance of this study is to elucidate Darwin's notion of ‘IAC’ theory rather than natural selection theory as a principle of heredity of behavior. The theory of ‘IAC’ was able to account for the rapid variation of instincts in a relatively short period of time, unlike natural selection, which operates slowly in geological time spans of tens of millions of years. The nineteenth century neurological theory also provided neurological principles for ‘plasticity of instinct,’ empirically supporting the fact that all nervous systems responsible for reflexes respond sensitively to very fine stimuli. However, researchers of neo-Darwinian tendencies, such as Richard Dawkins and evolutionary psychologists advocating the ‘selfish gene’ hypothesis, which today claim to be Darwin's descendants, are characterized by human nature embedded in biological information, such as the brain and genes, so that it cannot change at all. This study aims to contribute to reconstructing the evolutionary discourse by illuminating Darwin's insights into the “plasticity of nature” that instincts can change relatively easily even at the level of invertebrates such as earthworms.
Animals ; Ants ; Brain ; Epigenomics ; Ganglion Cysts ; Heredity ; Human Characteristics ; Humans ; Instinct ; Invertebrates ; Nervous System ; Neurology ; Neurosciences ; Oligochaeta ; Parents ; Psychology ; Reflex ; Selection, Genetic ; Spinal Cord ; Sympathetic Nervous System ; Transcutaneous Electric Nerve Stimulation ; Wills

Cephalopods have the most advanced nervous systems and intelligent behavior among all invertebrates. Their brains provide comparative insights for understanding the molecular and functional origins of the human brain. Although brain maps that contain information on the organization of each subregion are necessary for a study on the brain, no whole brain atlas for adult cephalopods has been constructed to date. Here, we obtained sagittal and coronal sections covering the entire brain of adult Octopus minor (Sasaki), which belongs to the genus with the most species in the class Cephalopoda and is commercially available in East Asia throughout the year. Sections were stained using Hematoxylin and Eosin (H&E) to visualize the cellular nuclei and subregions. H&E images of the serial sections were obtained at 30~70-µm intervals for the sagittal plain and at 40~80-µm intervals for the coronal plain. Setting the midline point of the posterior end as the fiducial point, we also established the distance coordinates of each image. We found that the brain had the typical brain structure of the Octopodiformes. A number of subregions were discriminated by a Hematoxylin-positive layer, the thickness and neuronal distribution pattern of which varied markedly depending upon the region. We identified more than 70 sub-regions based on delineations of representative H&E images. This is the first brain atlas, not only for an Octopodiformes species but also among adult cephalopods, and we anticipate that this atlas will provide a valuable resource for comparative neuroscience research.
Adult ; Arm* ; Brain* ; Cephalopoda ; Eosine Yellowish-(YS) ; Far East ; Hematoxylin ; Histology, Comparative ; Humans ; Invertebrates ; Nervous System ; Neurons ; Neurosciences ; Octopodiformes*

MicroRNAs (miRNAs) have important roles in all biological pathways in multicellular organisms. Over 1,400 human miRNAs have been identified, and many are conserved among vertebrates and invertebrates. Regulation of miRNA is the most common mode of post-transcriptional gene regulation. The miRNAs that are involved in the initiation and progression of cancers are termed oncomiRs and several of them have been identified in canine and human cancers. Similarly, several miRNAs have been reported to be down-regulated in cancers of the two species. In this review, current information on the expression and roles of miRNAs in oncogenesis and progression of human and canine cancers, as well the roles miRNAs have in cancer stem cell biology, are highlighted. The potential for the use of miRNAs as therapeutic targets in personalized cancer therapy in domestic dogs and their possible application in human cancer counterparts are also discussed.
Animals ; Biology ; Carcinogenesis ; Dogs ; Gene Expression ; Humans ; Invertebrates ; MicroRNAs ; Neoplastic Stem Cells ; Stem Cells ; Vertebrates

Chigger mites are parasites of rodents and other vertebrates, invertebrates, and other arthropods, and are the only vectors of scrub typhus, in addition to other zoonoses. Therefore, investigating their distribution, diversity, and seasonal abundance is important for public health. Rodent surveillance was conducted at 6 districts in Shandong Province, northern China (114–112°E, 34–38°N), from January to December 2011. Overall, 225/286 (78.7%) rodents captured were infested with chigger mites. A total of 451 chigger mites were identified as belonging to 5 most commonly collected species and 3 genera in 1 family. Leptotrombidium scutellare and Leptotrombidium intermedia were the most commonly collected chigger mites. L. scutellare (66.2%, 36.7%, and 49.0%) was the most frequently collected chigger mite from Apodemus agrarius, Rattus norvegicus, and Microtus fortis, respectively, whereas L. intermedia (61.5% and 63.2%) was the most frequently collected chigger mite from Cricetulus triton and Mus musculus, respectively. This study demonstrated a relatively high prevalence of chigger mites that varied seasonally in Shandong Province, China.
Animals ; Arthropods ; Arvicolinae ; China* ; Cricetinae ; Cricetulus ; Humans ; Invertebrates ; Mice ; Mites* ; Murinae ; Neptune ; Parasites ; Prevalence ; Public Health ; Rats ; Rodentia* ; Scrub Typhus ; Seasons ; Trombiculidae* ; Vertebrates ; Zoonoses

Sea urchins are marine invertebrates commonly found in coastal areas around the world. The potential mechanisms of injury are primary puncture wounds, envenomation, and the foreign body reaction. A 20-year-old woman presented with multiple, 0.2 to 0.3 cm-sized, erythematous papules with central blackish particles accompanied by numbness and pain on the dorsum of the right foot and ankle for 7 days. She had been injured by a sea urchin 7 days prior at the seaside in Guam. A skin biopsy of the lesion showed inflammation with foreign body reaction. The attending physician removed all the blackish particles and applied mupirocin ointment. Although skin lesions improved over time, numbness and pain still remained. There have been only six reported cases of sea urchin granuloma in Korea, but no reports of sea urchin injury with neurologic symptoms. Herein, we report a rare case of sea urchin injury accompanied by paresthesia.
Ankle ; Biopsy ; Female ; Foot ; Foreign-Body Reaction ; Granuloma ; Guam ; Humans ; Hypesthesia ; Inflammation ; Invertebrates ; Korea ; Mupirocin ; Neurologic Manifestations ; Paresthesia* ; Punctures ; Sea Urchins* ; Skin ; Wounds and Injuries ; Young Adult

Seafood is one of the common causes of food allergies to adults. The sea hare Aplysia kurodai is a marine mollusk which belongs to invertebrate gastropod that has been consumed as a food in Korea. Cases of acute toxic hepatitis after ingestion of sea hares have been reported, but few cases of allergic reactions to sea hare have been reported in the literature. A 33-year-old man was referred to our Emergency Department due to urticaria and periorbital/perioral swelling after eating sea hares. Approximately 10 years ago, he experienced similar allergic reactions to it. Skin prick and intradermal tests showed strong positive responses to crude sea hare allergen extract. He was diagnosed with food allergy to sea hares. We herein report the first case of sea hare allergy after ingestion.
Adult ; Angioedema* ; Aplysia ; Drug-Induced Liver Injury ; Eating* ; Emergency Service, Hospital ; Food Hypersensitivity ; Gastropoda ; Hares* ; Humans ; Hypersensitivity ; Intradermal Tests ; Invertebrates ; Korea ; Mollusca ; Seafood ; Skin ; Urticaria*

GIT1, a multifunctional signaling adaptor protein, is implicated in the development of dendritic spines and neuronal synapses. GIT1 forms a signaling complex with PIX, RAC, and PAK proteins that is known to play important roles in brain development. Here we found that Git1-knockout (Git1-/-) mice show a microcephaly-like small brain phenotype, which appears to be caused by reduced neuronal size rather than number. Git1-/- mice also show decreased dendritic spine number without morphological alterations in the hippocampus. Behaviorally, Git1-/- mice show impaired motor coordination and learning and memory. In addition, adult dGit Drosophila mutants show decreased brain size and abnormal morphology of the mushroom body. These results suggest that GIT1 is important for brain development in both rodents and flies.
Adult ; Animals ; Brain* ; Dendritic Spines ; Diptera ; Drosophila ; Hippocampus ; Humans ; Invertebrates* ; Learning ; Memory ; Mice ; Microcephaly ; Mushroom Bodies ; Neurons ; Phenotype ; Rodentia ; Synapses ; Vertebrates*

The Bombyx mori decapentaplegic gene is one of the conserved genes in vertebrate and invertebrates. The TGF-beta superfamily contains conserved polypeptide growth factors that play important roles in different cellular processes such as proliferation, apoptosis, differentiation and cell-fate determination. The B. mori dpp gene shares genetic homology with hBMPs and Drosophila dpp. Until now, only few studies have been conducted to examine the functions of B. mori dpp; and hence, its function is not yet well understood. In this study, the baculovirus expression vector system (BEVS) was used for expression of the recombinant B. mori dpp protein and in which the recombinant baculovirus is recovered in the host Sf9 cells. The selected pure recombinant baculovirus containing B. mori dpp gene (rBV-egfp-Bm dpp) was used to increase the effective protein purification by using His-tag extraction strategy. After selection of recombinant baculovirus, recombinant B. mori dpp proteins were extracted from the re-infected cells with pure rBV-egfp-Bm dpp. Herein, we summarize the efficient expression and purification of B. mori dpp proteins from the insect cells using the BEVS. This recombinant protein could be suitable for functional test and various application studies.
Apoptosis ; Baculoviridae* ; Bombyx* ; Drosophila ; Insects ; Intercellular Signaling Peptides and Proteins ; Invertebrates ; Sf9 Cells ; Transforming Growth Factor beta ; Vertebrates

The serotonergic system in vertebrates and invertebrates has been a focus for over 50 years and will likely continue in the future. Recently, genomic analysis and discovery of alternative splicing and differential expression in tissues have increased the knowledge of serotonin (5-HT) receptor types. Comparative studies can provide useful insights to the wide variety of mechanistic actions of 5-HT responsible for behaviors regulated or modified by 5-HT. To determine cellular responses and influences on neural systems as well as the efferent control of behaviors by the motor units, preparations amenable to detailed studies of synapses are beneficial as working models. The invertebrate neuromuscular junctions (NMJs) offer some unique advantages for such investigations; action of 5-HT at crustacean NMJs has been widely studied, and leech and Aplysia continue to be key organisms. However, there are few studies in insects likely due to the focus in modulation within the CNS and lack of evidence of substantial action of 5-HT at the Drosophila NMJs. There are only a few reports in gastropods and annelids as well as other invertebrates. In this review we highlight some of the key findings of 5-HT actions and receptor types associated at NMJs in a variety of invertebrate preparations in hopes that future studies will build on this knowledge base.
Alternative Splicing ; Aplysia ; Drosophila ; Gastropoda ; Insects ; Invertebrates ; Knowledge Bases ; Neuromuscular Junction ; Serotonin ; Synapses ; Synaptic Transmission ; Vertebrates

BACKGROUND: Bacteria associated with marine invertebrates are a rich source of bioactive metabolites. OBJECTIVE: The effects of marine bacteria extracts on pigmentation were investigated to find novel whitening agents. METHODS: The marine bacteria collected near Gangwha Island in Korea were isolated and extracted using organic solvent. The organic extracts were screened and selected using the cell free tyrosinase activity. The whitening effects of the selected extract were further investigated using cultured melanocytes, cultured skin and in vivo zebrafish. The whitening mechanism of the marine extract was also investigated. RESULTS: The marine bacterial methylene chloride extract reduced the pigmentation of Melan-a cells, human melanocytes, cultured skin and in vivo zebrafish. The decrease in pigmentation was due to the inhibition of tyrosinase activity and the expression of tyrosinase and microphthalmia-associated transcription factor protein. These bacteria were identified as a novel Pseudomonas species. CONCLUSION: The methylene chloride extract of marine pseudomonas species possesses a whitening effect. Further chemical isolation and characterization of the active compounds from this marine bacterial extract are needed.
Bacteria ; Humans ; Invertebrates ; Korea ; MART-1 Antigen ; Melanocytes ; Methylene Chloride ; Microphthalmia-Associated Transcription Factor ; Monophenol Monooxygenase ; Pigmentation ; Pseudomonas ; Skin ; Zebrafish