An Investigation of Antioxidant and Anti-inflammatory Activities from Blood Components of Crocodile (Crocodylus siamensis)

Antioxidant and anti-inflammatory activities were found from Crocodylus siamensis (C. siamensis) blood. The 2,2′-azino-bis(3-ethylbenzthiazoline-6-sulfonic acid) (ABTS) radical scavenging, nitric oxide scavenging, hydroxyl radical scavenging and linoleic peroxidation assays were used to investigate the antioxidant activities of the crocodile blood. Results show that crocodile blood components had antioxidant activity, especially hemoglobin (40.58 % nitric oxide radical inhibition), crude leukocyte extract (78 % linoleic peroxidation inhibition) and plasma (57.27 % hydroxyl radical inhibition). Additionally, the anti-inflammatory activity of the crocodile blood was studied using murine macrophage (RAW 264.7) as a model. The results show that hemoglobin, crude leukocyte extract and plasma were not toxic to RAW 264.7 cells. Also they showed anti-inflammatory activity by reduced nitric oxide (NO) and interleukin 6 (IL-6) productions from lipopolysaccharide (LPS)-stimulated cells. The NO inhibition percentages of hemoglobin, crude leukocyte extract and plasma were 31.9, 48.24 and 44.27 %, respectively. However, only crude leukocyte extract could inhibit IL-6 production. So, the results of this research directly indicate that hemoglobin, crude leukocyte extract and plasma of C. siamensis blood provide both antioxidant and anti-inflammatory activities, which could be used as a supplementary agent in pharmaceutical products.     

Change in mutation patterns of Plasmodium vivax dihydrofolate reductase (Pvdhfr) and dihydropteroate synthase (Pvdhps) in P. vivax isolates from malaria endemic areas of Thailand

Malaria is the most important public health problem in several countries. In Thailand, co-infections of Plasmodium vivax and Plasmodium falciparum are common. We examined the prevalence and patterns of mutations in P. vivax dihydrofolate reductase (Pvdhfr) and P. vivax dihydropteroate synthase (Pvdhps) in 103 blood samples collected from patients with P. vivax infection who had attended the malaria clinic in Mae Sot, Tak Province during 2009 and 2010. Using nested polymerase chain reaction-restriction fragment length polymorfism, we examined single nucleotide polymorphisms-haplotypes at amino acid positions 13, 33, 57, 58, 61, 117 and 173 of Pvdhfr and 383 and 553 of Pvdhps. All parasite isolates carried mutant Pvdhfr alleles, of which the most common alleles were triple mutants (99%). Eight different types of Pvdhfr and combination alleles were found, as follows: 57I/58R/117T, 57I/58R/117T, 57I/58R/117T/N, 57L/58R/117T, 57L/58R/117T, 58R/61M/117N, 58R/61M/117N and 13L/57L/58R/117T. The most common Pvdhfr alleles were 57I/58R/117T (77.7%), 57I/58R/117T/N (1%), 57L/58R/117T (5.8%) and 58R/61M/117N (14.5%). The most common Pvdhfr alleles were 57I/58R/117T (77.7%), 57I/58R/117T/N (1%), 57L/58R/117T (5.8%) and 58R/61M/117N (14.5%). Additionally, we recovered one isolate of a carrying a quadruple mutant allele, 13L/57L/58R/117T. The most prevalent Pvdhps allele was a single mutation in amino acid 383 (82.5%), followed by the wild-type A383/A553 (17.5%) allele. Results suggest that all P. vivax isolates in Thailand carry some combination of mutations in Pvdhfr and Pvdhps. Our findings demonstrate that development of new antifolate drugs effective against sulfadoxine-pyrimethamine-resistant P. vivax is required.     

TMEM16 Proteins Produce Volume-regulated Chloride Currents That Are Reduced in Mice Lacking TMEM16A

All vertebrate cells regulate their cell volume by activating chloride channels of unknown molecular identity, thereby activating regulatory volume decrease. We show that the Ca²⁺-activated Cl⁻ channel TMEM16A together with other TMEM16 proteins are activated by cell swelling through an autocrine mechanism that involves ATP release and binding to purinergic P2Y₂ receptors. TMEM16A channels are activated by ATP through an increase in intracellular Ca²⁺ and a Ca²⁺-independent mechanism engaging extracellular-regulated protein kinases (ERK1/2). The ability of epithelial cells to activate a Cl⁻ conductance upon cell swelling, and to decrease their cell volume (regulatory volume decrease) was dependent on TMEM16 proteins. Activation of I_Cl,swell was reduced in the colonic epithelium and in salivary acinar cells from mice lacking expression of TMEM16A. Thus TMEM16 proteins appear to be a crucial component of epithelial volume-regulated Cl⁻ channels and may also have a function during proliferation and apoptotic cell death.Regulation of cell volume is fundamental to all cells, particularly during cell growth and division. External hypotonicity leads to cell swelling and subsequent activation of volume-regulated chloride and potassium channels, to release intracellular ions and to re-shrink the cells, a process termed regulatory volume decrease (RVD)³ (1). Volume-regulated chloride currents (I_Cl,swell) have dual functions during cell proliferation as well as apoptotic volume decrease (AVD), preceding apoptotic cell death (2). Although I_Cl,swell is activated in swollen cells to induce RVD, AVD takes place under normotonic conditions to shrink cells (3, 4). Early work suggested intracellular Ca²⁺ as an important mediator for activation of I_Cl,swell and volume-regulated K⁺ channels (5), whereas subsequent studies only found a permissive role of Ca²⁺ for activation of I_Cl,swell (6), reviewed in Ref. 1. In addition, a plethora of factors and signaling pathways have been implicated in activation of I_Cl,swell, making cell volume regulation an extremely complex process (reviewed in Refs. 1, 3, and 7). These factors include intracellular ATP, the cytoskeleton, phospholipase A2-dependent pathways, and protein kinases such as extracellular-regulated kinase ERK1/2 (reviewed in Refs. 1 and 7). Previous approaches in identifying swelling-activated Cl⁻ channels have been unsuccessful or have produced controversial data. Thus none of the previous candidates such as pI_Cln, the multidrug resistance protein, or ClC-3 are generally accepted to operate as volume-regulated Cl⁻ channels (reviewed in Refs. 8 and 9). Notably, the cystic fibrosis transmembrane conductance regulator (CFTR) had been shown in earlier studies to influence I_Cl,swell and volume regulation (10–12). The variable properties of I_Cl,swell suggest that several gene products may affect I_Cl,swell in different cell types.The TMEM16 transmembrane protein family consists of 10 different proteins with numerous splice variants that contain 8–9 transmembrane domains and have predicted intracellular N- and C-terminal tails (13, 16–18). TMEM16A (also called ANO1) is required for normal development of the murine trachea (14) and is associated with different types of tumors, dysplasia, and nonsyndromic hearing impairment (13, 15). TMEM16A has been identified as a subunit of Ca²⁺-activated Cl⁻ channels that are expressed in epithelial and non-epithelial tissues (16–18). Interestingly, members of the TMEM16 family have been suggested to play a role in osmotolerance in Saccharomyces cerevisiae (19). Here we show that TMEM16 proteins also contribute to I_Cl,swell and regulatory volume decrease.     

Diagnostic values of parasite-specific antibody detections in saliva and urine in comparison with serum in opisthorchiasis

Infection by the liver fluke (Opisthorchis viverrini) causes hepatobiliary disease and bile duct cancer (cholangiocarcinoma, CCA) in endemic areas in Southeast Asia. Measurements of humoral immune response particularly parasite-specific antibodies are useful not only for serodiagnosis but they have been implicated as risk factors of CCA. In this study, we used indirect Enzyme Immunosorbent Assay (ELISA) to measure O. viverrini-specific immunoglobulins in serum, urine and saliva and assessed efficacies in diagnosis of opisthorchiasis and evaluated the relationship of antibodies among clinical specimens in a sample population in endemic areas in Khon Kaen, Thailand. By employing the Receiver Operation Characteristics (ROC) analysis, diagnostic efficacy based upon the area under the curve (AUC) revealed that serum, salivary IgG and IgA performed better than urine for diagnosis of opisthorchiasis. Seropositive cases were found in both parasite egg-negative as well as O. viverrini egg-positive groups. The levels of serum IgG correlated with intensity of O. viverrini infection (P < 0.05). Diagnostic sensitivities based on serum and salivary IgG, IgA also positively associated with the intensity of infection. Correlations between serum antibodies and those in saliva were found to be greater in egg-negative than egg-positive individuals for O. viverrini. Our findings indicated a complex interrelation between antibody responses in different clinical specimens triggered by liver fluke infection. More comprehensive examinations are needed to determine the potential utility of salivary antibody detection which, in combination with the conventional fecal examination method, may better assist in the identification of individuals with opisthorchiasis. Furthermore, it may provide a better indicator of the risk of disease, particularly CCA.     

Developmentally regulated expression of mouse HtrA3 and its role as an inhibitor of TGF-beta signaling

The expression of mouse HtrA1 is developmentally regulated and restricted in embryo tissues which depend largely on TGF-beta signaling for their differentiation. We examined whether mouse HtrA3, another HtrA family member very close to HtrA1, shows similar expression patterns. HtrA3 and -1 were expressed mostly in the same embryonic organs but exhibited complementary patterns in various tissues; the lens epithelial cells in day 12.5 embryo expressed HtrA3 whereas the ciliary body and pigment retina expressed HtrA1. In the vertebrae of day 14.5 embryo, HtrA3 was expressed in the tail region, but HtrA1 was predominantly expressed in the thoracic and lumbar regions. Similar to HtrA1, HtrA3 bound to various TGF-beta proteins and inhibited the signaling of BMP-4, -2 and TGF-beta 1. HtrA3 did not inhibit signaling originated from a constitutively active BMP receptor, indicating that the inhibition occurred upstream of the cell surface receptor. HtrA3 also showed proteolytic activities indistinguishable from those of HtrA1 toward beta-casein and some extracellular matrix (ECM) proteoglycans. The protease activity was absolutely required for the TGF-beta signal inhibition activity. All these data suggest that HtrA3 and -1 have the overlapping biological activities but can function in complementary fashion in certain types of tissues.     

Culture degeneration in conidia of Beauveria bassiana and virulence determinants by proteomics

The quality of Beauveria bassiana conidia directly affects the virulence against insects. In this study, continuous subculturing of B. bassiana on both rice grains and potato dextrose agar (PDA) resulted in 55 and 49 % conidial yield reduction after 12 passages and 68 and 60 % virulence reduction after 20 and 12 passages at four d post-inoculation, respectively. The passage through Tenebrio molitor and Spodoptera exigua restored the virulence of rice and PDA subcultures, respectively. To explore the molecular mechanisms underlying the conidial quality and the decline of virulence after multiple subculturing, we investigated the conidial proteomic changes. Successive subculturing markedly increased the protein levels in oxidative stress response, autophagy, amino acid homeostasis, and apoptosis, but decreased the protein levels in DNA repair, ribosome biogenesis, energy metabolism, and virulence. The nitro blue tetrazolium assay verified that the late subculture's colony and conidia had a higher oxidative stress level than the early subculture. A 2A-type protein phosphatase and a Pleckstrin homology domain protein Slm1, effector proteins of the target of rapamycin (TOR) complex 1 and 2, respectively, were dramatically increased in the late subculture. These results suggest that TOR signalling might be associated with ageing in B. bassiana late subculture, in turn affecting its physiological characteristics and virulence.     

Detection of β-thalassemia and hemoglobin E genes in Thai by a DNA amplification technique

Summary Enzymatic DNA amplification and polyacrylamide gel electrophoresis, which demonstrate different sizes of DNA fragments, were used to detect the common mutations causing -thalassemia and hemoglobin (Hb) E in Thai people. The 4-bp deletion at codons 41 and 42 can be detected directly by polyacrylamide gel electrophoresis and ethidium bromide staining. Whereas the nonsense mutations at codon 17 (AAG TAG) and Hb E (GAGAAG at codon 26) were detected after digestion of the amplified DNA with the enzymes MaeI and MnlI, respectively.     

Characterization of novel airway submucosal gland cell models for cystic fibrosis studies.

Cultured airway epithelial cells are widely used in cystic fibrosis (CF) research as in vitro models that mimic the in vivo manifestations of the disease and help to define a specific cellular phenotype. Recently, a number of in vitro studies have used an airway adenocarcinoma cell line, Calu-3 that expresses submucosal gland cell features and significant levels of the wild-type CFTR mRNA and protein. We further characterized previously described CF tracheobronchial gland cell lines, CFSMEo- and 6CFSMEo- and determined that these cell lines are compound heterozygotes for the F508del and Q2X mutations, produce vestigial amounts of CFTR mRNA, and do not express detectable CFTR protein. Electrophysiologically, both cell lines are characteristically CF in that they lack cAMP-induced Cl- currents. In this study the cell lines are evaluated in the context of their role as the CF correlate to the Calu-3 cells. Together these cell systems provide defined culture systems to study the biology and pathology of CF. These airway epithelial cell lines may also be a useful negative protein control for numerous studies involving gene therapy by cDNA complementation or gene targeting.     

Control of ion transport in mouse proximal and distal colon by prolactin.

The lactogenic hormone prolactin (PRL) has been known to affect Ca(2+) and electrolyte transport in the intestinal epithelium. In the present study we analyzed ion transport in mouse proximal and distal colon, and acute changes induced by PRL. In the proximal colon, carbachol activated a Ca(2+) dependent Cl(-) secretion that was sensitive to DIDS and NFA. In the distal colon, both ATP and carbachol activated K(+) secretion. Ca(2+) -activated KCl transport in proximal and distal colon was inhibited by PRL (200 ng/ml), while amiloride sensitive Na(+) absorption and cAMP induced Cl(-) secretion remained unaffected. Luminal large conductance Ca(2+) -activated K(+) (BK) channels were largely responsible for Ca(2+) -activated K(+) secretion in the distal colon, and basolateral BK channels supported Ca(2+) -activated Cl(-) secretion in the proximal colon. Ca(2+) chelating by BAPTA-AM attenuated effects of carbachol and abolished effects of PRL. Both inhibition of PI3 kinase with wortmannin and blockage of MAP kinases with SB 203580 or U 0126, interfered with the acute inhibitory effect of PRL on ion transport, while blocking of Jak/Stat kinases with AG 490 was without effects. PRL attenuated the increase in intracellular Ca(2+) that was caused by stimulation of isolated colonic crypts with carbachol. Thus PRL inhibits Ca(2+) dependent Cl(-) and K(+) secretion by interfering with intracellular Ca(2+) signaling and probably by activating PI3 kinase and MAP kinase pathways.