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2. Radiological Study of Atlas Arch Defects with Meta-Analysis and a Proposed New Classification.

Author

Suphamungmee, Worawit, Yurasakpong, Laphatrada, Poonudom, Kanchanaphan, Tubbs, R. Shane, Iwanaga, Joe, Kruepunga, Nutmethee, Chaiyamoon, Arada, and Suwannakhan, Athikhun

Subjects
*OROPHARYNGEAL cancer, *SEROPREVALENCE, *CANCER patients, *META-synthesis, *OPERATIVE surgery, *CONFIDENCE intervals, *SURGICAL complications
Abstract

This study consists of a retrospective cohort study, a systematic review, and a meta-analysis which were separately conducted. This study aimed to investigate the prevalence of atlas arch defects, generate an evidence-based synthesis, and propose a common classi- fication system for the anterior and combined atlas arch defects. Atlas arch defects are well-corticated gaps in the anterior or posterior arch of the atlas. When both arches are involved, it is known as a combined arch defect. Awareness of these defects is essential for avoiding complications during surgical procedures on the upper spine. The prevalence of arch defects was investigated in an open-access OPC-Radiomics (Radiomic Biomarkers in Oropharyngeal Carcinoma) dataset comprising 606 head and neck computed tomography scans from oropharyngeal cancer patients. A systematic review and meta-analysis were performed to generate prevalence estimates of atlas arch defects and propose a classification system for the anterior and combined atlas arch defects. The posterior arch defect was found in 20 patients (3.3%) out of the 606 patients investigated. The anterior arch defect was not observed in any patient, while a combined arch defect was observed in one patient (0.2%). A meta-analysis of 13,539 participants from 14 studies, including the present study, yielded a pooled-posterior arch defect prevalence of 2.07% (95% confidence interval [CI], 1.22%-2.92%). The prevalences of anterior and combined arch defects were 0.00% (95% CI, 0.00%-0.10%) and 0.14% (95% CI, 0.04%-0.25%), respectively. The anterior and combined arch defects were classified into five subtypes based on their morphology and frequency. The present study showed that atlas arch defects were present in approximately 2% of the general population. For future studies, larger sample sizes should be used for studying arch defects to avoid the small-study effect and to predict the prevalence accurately. [ABSTRACT FROM AUTHOR]

Published
2023
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6. Functional Remodeling of the Contractile Smooth Muscle Cell Cortex, a Provocative Concept, Supported by Direct Visualization of Cortical Remodeling.

Author

Suphamungmee, Worawit, Lehman, William, and Morgan, Kathleen G.

Subjects
*SMOOTH muscle, *MUSCLE cells, *VASCULAR smooth muscle, *IMMUNOELECTRON microscopy, *CELL morphology, *CYTOSKELETON, *ORGANELLES, *INTEGRINS
Abstract

Simple Summary: As a key element of the smooth muscle cell contractile apparatus, the actin cytoskeleton participates in the development of force by acting as a molecular track for the myosin cross bridge motor. At the same time, the actin cytoskeleton must transmit the force developed during contraction to the extracellular matrix and, thus, to neighboring cells. This propagation of force to the cell periphery and beyond is initiated in part on specifically localized cellular cortical actin filaments also involved in mechano-chemical transduction. During the contractile process itself and in response to extracellular structural and chemical alterations, the smooth muscle actin cytoskeletal remodels. This indicates that the cytoskeleton is a dynamic cellular organelle that adapts to the changes in cell shape and chemical cues. Current evidence connecting contractile function and mechano-transduction mechanisms to the plasticity of the vascular smooth muscle actin cytoskeleton is reviewed; we then describe new evidence for cytoskeletal remodeling in vascular smooth muscle cells. Here, using immunoelectron microscopy, we visualize the actin binding proteins filamin A, zyxin and talin in these cells and show that they participate in the cortical cell cytoskeletal alteration, thus supporting the premise that smooth muscle cell remodeling occurs during contraction. Considerable controversy has surrounded the functional anatomy of the cytoskeleton of the contractile vascular smooth muscle cell. Recent studies have suggested a dynamic nature of the cortical cytoskeleton of these cells, but direct proof has been lacking. Here, we review past studies in this area suggesting a plasticity of smooth muscle cells. We also present images testing these suggestions by using the technique of immunoelectron microscopy of metal replicas to directly visualize the cortical actin cytoskeleton of the contractile smooth muscle cell along with interactions by representative cytoskeletal binding proteins. We find the cortical cytoskeletal matrix to be a branched, interconnected network of linear actin bundles. Here, the focal adhesion proteins talin and zyxin were localized with nanometer accuracy. Talin is reported in past studies to span the integrin–cytoplasm distance in fibroblasts and zyxin is known to be an adaptor protein between alpha-actinin and VASP. In response to activation of signal transduction with the alpha-agonist phenylephrine, we found that no movement of talin was detectable but that the zyxin-zyxin spacing was statistically significantly decreased in the smooth muscle cells examined. Contractile smooth muscle is often assumed to have a fixed cytoskeletal structure. Thus, the results included here are important in that they directly support the concept at the electron microscopic level that the focal adhesion of the contractile smooth muscle cell has a dynamic nature and that the protein–protein interfaces showing plasticity are protein-specific. [ABSTRACT FROM AUTHOR]

Published
2022
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9. Ultrastructure, composition, and possible roles of the egg coats in Haliotis asinina

Author

Suphamungmee, Worawit, Chansela, Piyachat, Weerachatyanukul, Wattana, Poomtong, Tanes, Vanichviriyakit, Rapeepun, and Sobhon, Prasert

Subjects
Glycoproteins -- Properties, Fishes -- Eggs, Abalones -- Physiological aspects, Biological sciences, Zoology and wildlife conservation
Abstract

ABSTRACT Spawned eggs of a tropical abalone Haliotis asinina have 2 protective barriers: the egg jelly coat and the vitelline envelope. At the electron microscopic level, the egg jelly is [...]

Published
2010

10. Proportion of sperm and eggs for maximal in vitro fertilization in haliotis asinina and the chronology of early development

Author

Suphamungmee, Worawit, Engsusophon, Attakorn, Vanichviriyakit, Rapeepun, Sretarugsa, Prapee, Chavadej, Jittipan, Poomtong, Tanes, Linthong, Vichai, and Sobhon, Prasert

Subjects
Fertilization in vitro -- Research, Abalones -- Growth, Fertilization (Biology) -- Methods, Company growth, Biological sciences, Zoology and wildlife conservation
Abstract

ABSTRACT To obtain the highest yield during in vitro fertilization of tropical abalone Haliotis asinina, optimal proportion of the gametes, the timing of sperm egg interaction, and subsequent development were [...]

Published
2010

13. Sensory receptors on cephalic and epipodial tentacles of Haliotis asinina Linnaeus

Author

Wanichanon, Chaitip, Laimek, Praphaporn, Chitchulanon, Natpila, Suphamungmee, Worawit, Apisawetakan, Somjai, Linthong, Vichai, Sretarugsa, Prapee, Kruatrachue, Maleeya, Upatham, Edward Suchart, Poomtong, Tanes, and Sobhon, Prasert

Subjects
Abalones -- Research, Biological sciences, Zoology and wildlife conservation, Research
Abstract

ABSTRACT Haliotis asinina, a tropical abalone, has a pair each of cephalic, optic, appendage tentacles at the anterior end of the head, and numerous epipodial tentacles distributed on the periphery [...]

Published
2004

14. Saponin‐enriched extracts from body wall and Cuvierian tubule of Holothuria leucospilota reduce fat accumulation and suppress lipogenesis in Caenorhabditis elegans.

Author

Chumphoochai, Kawita, Chalorak, Pawanrat, Suphamungmee, Worawit, Meemon, Krai, and Sobhon, Prasert

Subjects
SAPONINS, METABOLISM, HOLOTHURIA, BUTANOL, TRIGLYCERIDES, RNA
Abstract

BACKGROUND: Saponins have been shown to possess many pharmacological properties, including altered fat metabolism. The black sea cucumber, Holothuria leucospilota, is a marine animal that contains a specialized organ called a Cuvierian tubule that produces and secrete the bioactive saponins into the tubules and body wall. Therefore, the aims of this study are to investigate the anti‐obesity effect of saponins extracted from body wall and Cuvierian tubules of H. leucospilota. RESULTS: The butanol extracts of H. leucospilota body wall and Cuvierian tubules containing high amounts of saponins significantly reduced fat deposition and triglyceride levels in Caenorhabditis elegans fed with 50 mmol L−1 glucose. Moreover, the saponin‐enriched extracts of H. leucospilota significantly restored the lifespan of 2% glucose‐fed worms (18.71%). Green fluorescence protein‐labeled sbp‐1 gene expression and nuclear translocation of daf‐16 were also significantly decreased in H. leucospilota treatment. The saponin‐enriched extracts downregulated the messenger RNA expressions of genes involved in fat storage and metabolism, including sbp‐1, cebp, and daf‐16 but upregulated the expression of nhr‐49 gene. CONCLUSION: Our results suggest that H. leucospilota‐derived saponins may mediate the reduction of glucose‐induced fat accumulation through sbp‐1, cebp, daf‐16 and nhr‐9 pathways. Therefore, the H. leucospilota extracts could be used as nutraceuticals for anti‐obesity prevention. © 2019 Society of Chemical Industry [ABSTRACT FROM AUTHOR]

Published
2019
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15. Saponins enriched in the epidermal layer of Holothuria leucospilota body wall.

Author

Sroyraya, Morakot, Kaewphalug, Wanita, Anantachoke, Natthinee, Poomtong, Tanes, Sobhon, Prasert, Srimongkol, Atthapol, and Suphamungmee, Worawit

Abstract

Saponins are secondary metabolites that provide medicinal benefits in controlling body homeostasis and metabolic functions. Sea cucumber has been consumed in many Asian countries due to their health benefits. Active chemicals found in sea cucumber include natural source of saponins which are enriched in their tissues, including the Cuvierian tubules and the body wall. Tissue origin of the saponin biosynthesis and accumulation is limitedly known. The present study is to indicate major compositions and distributions of saponins in the body wall of Holothuria leucospilota. Structurally, their body wall consisted of the pigmented layer of the epidermis, the dermal connective tissues, and inner muscular layers. Interestingly, release of the pigmented granules from the epidermis was related to detection of epidermal saponins. Matrix‐assisted laser desorption/ionization mass spectrometry (MALDI‐MS) revealed identical mass spectra in the saponin extracts and compared to the known compounds of holothurians. To investigate the release of epidermal saponins, the epidermis dissolved in either butanol or distilled water were analyzed and presented the saponin masses with two prominent masses of m/z 1,243.3 (holothurin A and scabraside B) and 1,259.3 (holothurin A3). MALDI‐IMS also demonstrated strong signals of the known saponins which were only localized in the epidermis of the body wall. Taken together, this study shows that granule release from epidermal pigmented cells is somehow related to the amount of epidermal saponins released to surrounding seawater. Hence, the future research in the sea cucumber better focuses on epidermal cells that are the enriched site of saponins, although several active compounds require further investigation. ‐ Electron microscopy and MALDI‐IMS revealed the major compositions and the distributions of saponins in H. leucospilota body wall, particularly in the epidermis. ‐ The epidermal saponins, m/z 1,243.3 and 1,259.3 were the most abundant compounds. [ABSTRACT FROM AUTHOR]

Published
2018
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16. Loss of Dystrobrevin Causes Muscle Degeneration and a Short Lifespan in Caenorhabditis elegans.

Author

JATTUJAN, Prapaporn, MEEMON, Krai, and SUPHAMUNGMEE, Worawit

Subjects
DUCHENNE muscular dystrophy, DYSTROGLYCAN, MUSCULAR dystrophy, C-terminal residues, DYSTROBREVIN, PHENOTYPES, CELL membranes
Abstract

Duchene's muscular dystrophy (DMD) is an inherited disorder in an X-linked recessive manner. Lack of dystrophin causes progressive muscle degeneration. Dystrophin structurally connects to actin filaments at the N-terminus while the C-terminus interacts with an integral domain of the dystroglycan complex. Among the associated molecules, dystrobrevin acts as a modulator protein exerting dystrophin's function for strengthening the cell stability. Previous data has reported the delayed muscle degeneration following an overexpression of the dystrobrevin (dyb) gene in the DMD-phenotype C. elegans, whose dystrophin (dys) gene was missing. This finding indicates the role of a modulator protein, rather than dystrophin, to maintain the cell integrity. The present study aims to investigate the phenotypes of C. elegans, due to dyb- or dys-deficiency. When compared with the wild-type, the dyb-deficient worms exhibited uncoordinated locomotion and lysis of the muscular layer in the body wall and internal organs as well as those observed in the dys-deficient worms. The ultrastructure of both mutant worms appeared severe muscle degeneration, decrease of the mitochondria, and replacement of fibrotic tissue, particularly the dys-mutant which was even more severe. Additionally, a shorter lifespan was observed with a 17 % reduction (p < 0.05) in dyb-deficient worms and 27 % reduction (p < 0.05) in dys-deficient worms when compared to wild-type. It is speculated that dystrobrevin may stabilize the cell through interaction with other protein complexes at the plasma membrane while it also binds to dystrophin. Therefore, the loss of dystrobrevin is also sufficient to disrupt the signaling pathway and causes muscle degeneration. [ABSTRACT FROM AUTHOR]

Published
2018

17. Distribution and dynamic expression of serotonin and dopamine in the nervous system and ovary of <italic>Holothuria scabra</italic> during ovarian maturation.

Author

Chaiyamoon, Arada, Tinikul, Ruchanok, Chaichotranunt, Supakant, Poomthong, Tanes, Suphamungmee, Worawit, Sobhon, Prasert, and Tinikul, Yotsawan

Subjects
SEROTONIN regulation, DOPAMINE agents, HOLOTHURIA scabra, NERVOUS system, OVARIES
Abstract

In the present study, the distribution and dynamic expression of serotonin and dopamine in the nervous system and ovary of the sea cucumber, Holothuria scabra, during different ovarian stages were investigated. We found that serotonin-immunoreactivity was more intense in the neurons and neuropils of the outer ectoneural part, the inner hyponeural part, and the wall of hyponeural canal of radial nerve cord during the mature stages of ovarian cycle, whereas dopamine-immunoreactivity was detected at a higher intensity in these tissues during the early stages. Both neurotransmitters were detected in the ectoneural part of the nerve ring. In the ovary, serotonin intensity was more intense in the cytoplasm of late oocytes, while dopamine-immunoreactivity was more intense in the early stages. The changes in the levels serotonin in the radial nerve cord and oocytes are incremental towards the late stages of ovarian maturation. In contrast, dopamine levels in the nervous tissues and oocytes were more intense in early stages and became decremental towards the late stages. These findings suggest that serotonin and dopamine may have opposing effects on ovarian development in this sea cucumber species. [ABSTRACT FROM AUTHOR]

Published
2018
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18. Starvation Promotes Autophagy-Associated Maturation of the Ovary in the Giant Freshwater Prawn, Macrobrachium rosenbergii.

Author

Kankuan, Wilairat, Wanichanon, Chaitip, Titone, Rossella, Engsusophon, Attakorn, Sumpownon, Chanudporn, Suphamungmee, Worawit, Morani, Federica, Masini, Matilde, Novelli, Michela, Isidoro, Ciro, and Sobhon, Prasert

Subjects
MACROBRACHIUM rosenbergii, OVARIAN physiology, STARVATION, AUTOPHAGY, BIOMARKERS, VITELLIN, PHYSIOLOGY
Abstract

Limitation of food availability (starvation) is known to influence the reproductive ability of animals. Autophagy is a lysosomal driven degradation process that protects the cell under metabolic stress conditions, such as during nutrient shortage. Whether, and how starvation-induced autophagy impacts on the maturation and function of reproductive organs in animals are still open questions. In this study, we have investigated the effects of starvation on histological and cellular changes that may be associated with autophagy in the ovary of the giant freshwater prawn, Macrobachium rosenbergii. To this end, the female prawns were daily fed (controls) or unfed (starvation condition) for up to 12 days, and the ovary tissue was analyzed at different time-points. Starvation triggered ovarian maturation, and concomitantly increased the expression of autophagy markers in vitellogenic oocytes. The immunoreactivities for autophagy markers, including Beclin1, LC3-II, and Lamp1, were enhanced in the late oocytes within themature ovaries, especially at the vitellogenic stages. These markers co-localized with vitellin in the yolk granules within the oocytes, suggesting that autophagy induced by starvation could drive vitellin utilization, thus promoting ovarian maturation. [ABSTRACT FROM AUTHOR]

Published
2017
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20. Cryotomography of Budding Influenza A Virus Reveals Filaments with Diverse Morphologies that Mostly Do Not Bear a Genome at Their Distal End.

Author

Vijayakrishnan, Swetha, Loney, Colin, Jackson, David, Suphamungmee, Worawit, Rixon, Frazer J., and Bhella, David

Subjects
INFLUENZA viruses, CYTOPLASMIC filaments, GENOMICS, ULTRASTRUCTURE (Biology), TOMOGRAPHY
Abstract

Influenza viruses exhibit striking variations in particle morphology between strains. Clinical isolates of influenza A virus have been shown to produce long filamentous particles while laboratory-adapted strains are predominantly spherical. However, the role of the filamentous phenotype in the influenza virus infectious cycle remains undetermined. We used cryo-electron tomography to conduct the first three-dimensional study of filamentous virus ultrastructure in particles budding from infected cells. Filaments were often longer than 10 microns and sometimes had bulbous heads at their leading ends, some of which contained tubules we attribute to M1 while none had recognisable ribonucleoprotein (RNP) and hence genome segments. Long filaments that did not have bulbs were infrequently seen to bear an ordered complement of RNPs at their distal ends. Imaging of purified virus also revealed diverse filament morphologies; short rods (bacilliform virions) and longer filaments. Bacilliform virions contained an ordered complement of RNPs while longer filamentous particles were narrower and mostly appeared to lack this feature, but often contained fibrillar material along their entire length. The important ultrastructural differences between these diverse classes of particles raise the possibility of distinct morphogenetic pathways and functions during the infectious process. [ABSTRACT FROM AUTHOR]

Published
2013
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21. Electron Microscopy and 3D Reconstruction Reveals Filamin Ig Domain Binding to F-Actin

Author

Suphamungmee, Worawit, Nakamura, Fumihiko, Hartwig, John H., and Lehman, William

Subjects
*FILAMINS, *ELECTRON microscopy, *F-actin, *DIMERS, *CALPONIN, *HOMOLOGY (Biology), *PROTEIN structure
Abstract

Abstract: Filamin A (FLNa) is an actin-binding protein that cross-links F-actin into networks of orthogonally branched filaments. FLNa also directs the networks to integrins while responding to mechanochemical signaling pathways. Flexible, 160-nm-long FLNa molecules are tail-to-tail dimers, each subunit of which contains an N-terminal calponin homology (CH)/actin-binding domain connected by a series of 24 immunoglobulin (Ig) repeats to a dimerization site at their C-terminal end. Whereas the contribution of the CH domains to F-actin affinity is weak (apparent K a ~105), the binding of the intact protein to F-actin is strong (apparent K a ~108), suggesting involvement of additional parts of the molecule in this association. Indeed, previous results indicate that Ig repeats along FLNa contribute significantly to the strength of the actin filament interaction. In the current study, we used electron microscopy and three-dimensional reconstruction to elucidate the structural basis of the Ig repeat–F-actin binding. We find that FLNa density is clearly delineated in reconstructions of F-actin complexed either with a four-Ig-repeat segment of FLNa containing Ig repeat 10 or with immunoglobulin-like filamin A repeat (IgFLNa)10 alone. The mass attributable to IgFLNa10 lies peripherally along the actin helix over the N-terminus of actin subdomain 1. The IgFLNa10 interaction appears to be specific, since no other individual Ig repeat or fragment of the FLNa molecule examined, besides ones with IgFLNa10 or CH domains, decorated F-actin filaments or were detected in reconstructions. We conclude that the combined interactions of CH domains and the IgFLNa10 repeat provide the binding strength of the whole FLNa molecule and propose a model for the association of IgFLNa10 on actin filaments. [Copyright &y& Elsevier]

Published
2012
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22. The flexibility of two tropomyosin mutants, D175N and E180G, that cause hypertrophic cardiomyopathy

Author

Li, Xiaochuan (Edward), Suphamungmee, Worawit, Janco, Miro, Geeves, Michael A., Marston, Steven B., Fischer, Stefan, and Lehman, William

Subjects
*TROPOMYOSINS, *HYPERTROPHIC cardiomyopathy, *ETIOLOGY of diseases, *GENETIC mutation, *MECHANICAL properties of the heart, *MUSCLE cells, *ELECTRON microscopy
Abstract

Abstract: Point mutations targeting muscle thin filament proteins are the cause of a number of cardiomyopathies. In many cases, biological effects of the mutations are well-documented, whereas their structural and mechanical impact on filament assembly and regulatory function is lacking. In order to elucidate molecular defects leading to cardiac dysfunction, we have examined the structural mechanics of two tropomyosin mutants, E180G and D175N, which are associated with hypertrophic cardiomyopathy (HCM). Tropomyosin is an α-helical coiled-coil dimer which polymerizes end-to-end to create an elongated superhelix that wraps around F-actin filaments of muscle and non-muscle cells, thus modulating the binding of other actin-binding proteins. Here, we study how flexibility changes in the E180G and D175N mutants might affect tropomyosin binding and regulatory motion on F-actin. Electron microscopy and Molecular Dynamics simulations show that E180G and D175N mutations cause an increase in bending flexibility of tropomyosin both locally and globally. This excess flexibility is likely to increase accessibility of the myosin-binding sites on F-actin, thus destabilizing the low-Ca2+ relaxed-state of cardiac muscle. The resulting imbalance in the on–off switching mechanism of the mutants will shift the regulatory equilibrium towards Ca2+-activation of cardiac muscle, as is observed in affected muscle, accompanied by enhanced systolic activity, diastolic dysfunction, and cardiac compensations associated with HCM and heart failure. [Copyright &y& Elsevier]

Published
2012
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23. Saponin‐rich extracts from Holothuria leucospilota mediate lifespan extension and stress resistance in Caenorhabditis elegans via daf‐16.

Author

Kitisin, Thitinan, Suphamungmee, Worawit, and Meemon, Krai

Subjects
*CAENORHABDITIS, *CAENORHABDITIS elegans, *SAPONINS, *AGING prevention, *SEA cucumbers, *EXTRACTS, *PSYCHOLOGICAL stress
Abstract

Saponins are secondary metabolite compounds that can be found in sea cucumbers (Holothuroidea spp.). However, little is known about how saponin‐rich extracts from Holothuria leucospilota can delay and prolong the lifespan of the whole organism. In this study, anti‐aging effects of H. leucospilota extracts were studied on Caenorhabditis elegans. NMR analysis revealed that body wall n‐butanol‐extract of H. leucospilota (BW‐BU) is saponin‐rich. BW‐BU extracts exhibited antioxidant activities by 2,2ʹ‐diphenyl‐2‐picrylhydrazyl assay (EC50 = 10.23 ± 0.12 mg/ml) and 2,2ʹ‐azino‐bis‐3‐ethylbenzthiazoline‐6‐sulphonic acid assay (EC50 = 3.91 ± 0.04 mg/ml). BW‐BU extracts increased lifespan of L4 and L1 C. elegans (5.92% and 15.76%, respectively), which also increased worm growth, stress resistance, and reduced biomarkers for aging. BW‐BU extracts activated DAF‐16 nuclear localization and upregulated daf‐16 and DAF‐16 target genes expression. Taken together, this study revealed the evidences on anti‐aging activities of saponin‐rich extracts from H. leucospilota, which can extend lifespan of C. elegans via daf‐16. Practical applications: In recent years, age‐associated chronic diseases have had a significant impact on quality of life. Many natural compounds exhibit anti‐aging activities, especially in sea cucumber, H. leucospilota. Our results indicated that H. leucospilota is good for health. Extracts from H. leucospilota contain a bioactive compound that can be potentially used to promote longevity and disease prevention in aging. [ABSTRACT FROM AUTHOR]

Published
2019
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24. Anti-Parkinson activity of bioactive substances extracted from Holothuria leucospilota.

Author

Malaiwong, Nawaphat, Chalorak, Pawanrat, Jattujan, Prapaporn, Manohong, Preeyanuch, Niamnont, Nakorn, Suphamungmee, Worawit, Sobhon, Prasert, and Meemon, Krai

Subjects
*ETHYL acetate, *SAPONINS, *TERPENES
Abstract

Graphical abstract Highlights • H. leucospilota extracts prevented degeneration of DA neurons and improved food-sensing behavior in 6-OHDA-induced C. elegans. • H. leucospilota extracts up-regulated cat-2 and sod-3 gene expressions in C. elegans PD model. • H. leucospilota extracts reduced α-synuclein aggregation and improved lipid deposition. • H. leucospilota extracts increased the lifespan of 6-OHDA-induced C. elegans. • NMR analysis revealed the major chemical components comprise terpenoids, steroids, saponins, and glycosides. Abstract Parkinson's disease (PD) is a well-known neurodegenerative disorder characterized by dopaminergic (DA) neuron loss and α-synuclein aggregation. Recent study revealed that the extracts from sea cucumber, Holothuroidea spp., exhibited neuroprotective and lifespan extension effects in Caenorhabditis elegans model. Interestingly, the black sea cucumber, Holothuria leucospilota, possesses body wall and a specialized organ called cuvierian tubules containing high amount of bioactive compounds. In this study, the neuroprotective effects of the body wall (BW) and cuvierian tubules (CT) from this sea cucumber against PD were evaluated using C. elegans as a model. H. leucospilota were extracted using ethanol (ET), ethyl acetate (EA), butanol (BU) and aqueous (AQ) fractions. Extracts from these fractions were used to treat the 6-OHDA-induced BZ555 and α-synuclein expressing NL5901 strains of C. elegans. Treatment with ET, EA, BU and AQ fractions of H. leucospilota extracts could significantly prevent degeneration of DA neurons in 6-OHDA-induced worms, improve food-sensing behavior mediated by DA neurons, and up-regulate cat-2 and sod-3 gene expressions. These results indicate the neuroprotective activity of the extracts which may be attributed to the anti-oxidant activity of the bioactive compounds. Moreover, α-synuclein aggregation was significantly reduced together with the recovery of lipid deposition upon the treatment with H. leucospilota extracts. In addition, treatment with H. leucospilota extracts was able to increase the lifespan of 6-OHDA-induced N2. NMR analysis revealed the major chemical components in the effective EA fractions were terpenoids, steroids, saponins, and glycosides. In summary, H. leucospilota extracts exhibited anti-Parkinson effect in both toxin-induced and transgenic C. elegans models of PD. Further study will be performed to elucidate the most effective anti-PD molecules which will lead to the development of anti-PD drug. [ABSTRACT FROM AUTHOR]

Published
2019
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25. Phosphorylation of Ser283 enhances the stiffness of the tropomyosin head-to-tail overlap domain.

Author

Lehman, William, Medlock, Greg, Li, Xiaochuan (Edward), Suphamungmee, Worawit, Tu, An-Yue, Schmidtmann, Anja, Ujfalusi, Zoltán, Fischer, Stefan, Moore, Jeffrey R., Geeves, Michael A., and Regnier, Michael

Subjects
*TROPOMYOSINS, *PHOSPHORYLATION, *MOLECULAR dynamics, *MUSCLE contraction, *CARDIOMYOPATHIES, *MUSCLE strength
Abstract

The ends of coiled-coil tropomyosin molecules are joined together by nine to ten residue-long head-to-tail “overlapping domains”. These short four-chained interconnections ensure formation of continuous tropomyosin cables that wrap around actin filaments. Molecular Dynamics simulations indicate that the curvature and bending flexibility at the overlap is 10–20% greater than over the rest of the molecule, which might affect head-to-tail filament assembly on F-actin. Since the penultimate residue of striated muscle tropomyosin, Ser283, is a natural target of phosphorylating enzymes, we have assessed here if phosphorylation adjusts the mechanical properties of the tropomyosin overlap domain. MD simulations show that phosphorylation straightens the overlap to match the curvature of the remainder of tropomyosin while stiffening it to equal or exceed the rigidity of canonical coiled-coil regions. Corresponding EM data on phosphomimetic tropomyosin S283D corroborate these findings. The phosphorylation-induced change in mechanical properties of tropomyosin likely results from electrostatic interactions between C-terminal phosphoSer283 and N-terminal Lys12 in the four-chain overlap bundle, while promoting stronger interactions among surrounding residues and thus facilitating tropomyosin cable assembly. The stiffening effect of D283-tropomyosin noted correlates with previously observed enhanced actin–tropomyosin activation of myosin S1-ATPase, suggesting a role for the tropomyosin phosphorylation in potentiating muscle contraction. [ABSTRACT FROM AUTHOR]

Published
2015
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26. Basic nuclear protein pattern and chromatin condensation in the male germ cells of a tropical abalone, Haliotis asinina.

Author

Suphamungmee W, Apisawetakan S, Weerachatyanukul W, Wanichanon C, Sretarugsa P, Poomtong T, and Sobhon P

Subjects
Animals, Antibodies immunology, Histones analysis, Histones immunology, Male, Nuclear Proteins immunology, Protamines analysis, Protamines immunology, Spermatozoa metabolism, Testis cytology, Chromatin chemistry, Chromatin ultrastructure, Mollusca genetics, Nuclear Proteins analysis, Spermatogenesis physiology, Spermatozoa chemistry, Spermatozoa ultrastructure
Abstract

The basic nuclear proteins (BNPs) in spermatozoa of a tropical abalone, Haliotis asinina, were composed of a majority of protamine-like (PL) protein and a small amount of histones H1 and H4. Abalone H1 and PL proteins exhibited strong immunological cross reactivities among themselves as well as with chick H5 and calf thymus H1. Thus, all these proteins may belong to the same family. Immunolocalization by indirect immunofluorescence and immunoelectron microscopy indicated that H1 and H4 were present in all steps of the male germ cells, however, with decreasing amount in late stage cells, particularly spermatids and spermatozoa. On the other hand, PL was present in middle step cells (secondary spermatocytes) with increasing amount in spermatids and spermatozoa when the chromatin became tightly packed. Thus, PL may be involved in the condensation of chromatin in the spermatozoa of this species., ((c) 2005 Wiley-Liss, Inc.)

Published
2005
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