Prime Target Organ Research Articles

Evaluation of mutagenic, cytotoxic, mitochondrial dysfunction, apoptotic activity, and acute toxicity of ethanolic extract of Cissus quadrangularis

Recent studies have focused on exploring the efficacy of Cissus quadrangularis extract (EECQ) against various metabolic disorders involving the liver as the prime target organ, suggesting a considerable threat of hepatotoxicity in the person encountering it. Consequently, the current study was aimed to unravel the mutagenic, cytotoxic, mitochondrial dysfunction, apoptotic activity in HepG2 cells, and acute toxicity of EECQ. MTT, SRB, trypan blue dye exclusion, and lactate dehydrogenase (LDH) assay were performed in HepG2 cell lines to determine the cytotoxicity of the extract. The mutagenic potential was determined by the Ames test using various strains of Salmonella typhimurium. Acute toxicity was done at a dose of 2000 mg/kg in Sprague Dawley rats. MTT and SRB cytotoxicity assays demonstrated dose-dependent cytotoxicity of extract. The three highest noncytotoxic doses from the above assay, investigated by trypan blue dye exclusion and LDH assay, did not reveal cytotoxicity. Besides, mitochondrial dysfunction was determined by measuring cellular and mitochondrial ROS, ATP, NAD, mitochondrial membrane potential, Bax/Bcl2 ratio, mitochondrial and cytoplasmic cytochrome c, and apoptosis-inducing factor, were found to be equivalent in both extract exposed and unexposed cells. Moreover, the apoptotic cell morphology and the expression of pro-apoptotic mRNAs and proteins were equivalent in both the group. In acute toxicity, EECQ in rats did not cause any significant change in body weight, liver index, and liver function test. All-encompassing, the present study unraveled that EECQ is not mutagenic, cytotoxic, nor apoptotic in human hepatic cells, as well as neither acute toxicity.

Bioaccumulation of Heavy Metals in Different Organs of Wallago attu from River Kabul Khyber Pakhtunkhwa, Pakistan.

The aim of the study was to quantify the accumulation of heavy metals like Zn, Ni, Cr, Cu, Cd, Mn, Fe, and Hg in various organs of Wallago attu. Samples were collected from polluted parts of River Kabul and compared with control fish netted from Warsak Dam. The data indicated that the sequence of metal bioaccumulation in the skin, gills, and muscle was Zn > Cr > Pb > Cu > Ni > Fe > Mn > Hg > Cd, in the intestine was Zn > Pb > Cr > Cu > Ni > Fe > Mn > Hg > Cd, and in the liver was Zn > Pb > Cr > Cu > Ni > Fe > Mn > Hg > Cd. The overall metal burden in different tissues of W. attu was in the sequence of skin > gills > intestine > muscle > liver. The skin being the prime target organ showed that the route of metal uptake was the direct result of fish to metal exposure. The liver accumulated the least level of metals than other organs of the same fish.

Natural Transmission of Plasmodium berghei Exacerbates Chronic Tuberculosis in an Experimental Co-Infection Model

Human populations are rarely exposed to one pathogen alone. Particularly in high incidence regions such as sub-Saharan Africa, concurrent infections with more than one pathogen represent a widely underappreciated public health problem. Two of the world’s most notorious killers, malaria and tuberculosis, are co-endemic in impoverished populations in the tropics. However, interactions between both infections in a co-infected individual have not been studied in detail. Both pathogens have a major impact on the lung as the prime target organ for aerogenic Mycobacterium tuberculosis and the site for one of the main complications in severe malaria, malaria-associated acute respiratory distress syndrome (MA-ARDS). In order to study the ramifications caused by both infections within the same host we established an experimental mouse model of co-infection between Mycobacterium tuberculosis and Plasmodium berghei NK65, a recently described model for MA-ARDS. Our study provides evidence that malaria-induced immune responses impair host resistance to Mycobacterium tuberculosis. Using the natural routes of infection, we observed that co-infection exacerbated chronic tuberculosis while rendering mice less refractory to Plasmodium. Co-infected animals presented with enhanced inflammatory immune responses as reflected by exacerbated leukocyte infiltrates, tissue pathology and hypercytokinemia accompanied by altered T-cell responses. Our results - demonstrating striking changes in the immune regulation by co-infection with Plasmodium and Mycobacterium - are highly relevant for the medical management of both infections in humans.

Differential Regulation of Amino Acid Transporter SNAT3 by Insulin in Hepatocytes

The liver is a metabolism and transfer center of amino acids as well as the prime target organ of insulin. In this report, we characterized the regulation of system N/A transporter 3 (SNAT3) in the liver of dietary-restricted mice and in hepatocytes treated with serum starvation and insulin. The expression of SNAT3 was up-regulated in dietary-restricted mice. The expression of SNAT3 protein was detected on the plasma membrane of hepatocyte-like H2.35 cells with a half-life of 6-8 h. When H2.35 cells were depleted of serum, the expression of SNAT3 was increased. An increased concentration of insulin, however, suppressed SNAT3 expression. Interestingly, the down-regulation of SNAT3 expression by insulin was blocked by the specific phosphoinositide 3-kinase inhibitor LY294002 and mammalian target of rapamycin inhibitor, but not by MAPK inhibitor PD98059, suggesting that insulin exerts its effect on SNAT3 through phosphoinositide 3-kinase-mammalian target of rapamycin signaling. Surface biotinylation assay showed an increased level of SNAT3 on the cell surface after 0.5 h of insulin treatment, although no effect was observed after 24 h of treatment. Consistently, the transport of the substrate l-histidine was increased with short, but not long, treatment by insulin in both H2.35- and SNAT3-transfected COS-7 cells. The L-histidine uptake was inhibited significantly by L-histidine followed by 2-endoamino-bicycloheptane-2-carboxylic acid and L-cysteine and to a lesser extent by L-alanine and aminoisobutyric acid, but was not inhibited by alpha-(methylamino)isobutyric acid, implying that uptake of L-histidine in H2.35 cells is primarily mediated by system N transporters. In conclusion, differential regulation of SNAT3 by insulin and serum starvation reinforces the functional significance of this transporter in liver physiology.

Synthesis, physicochemical properties, and evaluation of N-substituted-2-alkyl-3-hydroxy-4(1H)-pyridinones.

The synthesis of a range of 3-hydroxy-4(1H)-pyridinones with potential for the chelation of iron(III) is described. The pKa values of respective ligands and the stability constants of their iron(III) complexes are presented. The distribution coefficient values of a range of 48 hydroxypyridinones and their corresponding iron(III) complexes between 1-octanol and MOPS buffer (pH 7.4) are reported. The range of log Dcomplex values covers 7 orders of magnitude. The results suggest the existence of a biphasic relationship between the distribution coefficient values of the chelator and the corresponding iron(III) complexes. For ligands with a log Dligand = -1, a linear relationship exists with a value of the slope 2.53, whereas with ligands with a log Dligand < -1, a linear relationship exists with a slope of 0.49. The reduced slope for the more hydrophilic molecules of the series offers some advantage for this type of hydroxypyridinone as the distribution coefficients for such complexes do not change so rapidly with increasing ligand hydrophilicity. The ability of selected 3-hydroxypyridinones to facilitate the excretion of iron in bile was investigated in non-iron-overloaded, bile duct-cannulated rats and in a [59Fe]ferritin-loaded rat model. Both systems compare the ability of chelators to remove iron from the liver, the prime target organ in thalassemia. The N-(hydroxyalkyl)-3-hydroxypyridin-4-ones are demonstrated to be orally active under the in vivo conditions adopted. Thus both 1-(hydroxyalkyl)- and 1-(carboxyalkyl)pyridinones are able to remove iron from the liver. Although 1-(carboxyalkyl)hydroxypyridinones are active, they do not demonstrate any clear advantage over Deferiprone (1,2-dimethyl-3-hydroxypyridin-4-one). Indeed 1-(hydroxyalkyl)hydroxypyridinones which are known to be rapidly converted to 1-(carboxyalkyl)hydroxypyridinones are also marginally superior to Deferiprone. In contrast, 2-ethyl-1-(2'-hydroxyethyl)-3-hydroxypyridin-4-one, which is not metabolized to the corresponding (carboxyalkyl)hydroxypyridinone, was found to be superior to Deferiprone and therefore deserves further consideration as an orally active iron chelator with potential for the treatment of iron overload associated with transfusion-dependent thalassemia.

Lung immunoglobulins in the sudden infant death syndrome.

The incidence of the sudden infant death syndrome parallels that of respiratory tract infections in the paediatric community. On the basis that the aetiology of the sudden infant death syndrome may lie in an unusual response to a trivial intercurrent respiratory infection a necropsy study was carried out investigating pulmonary immunoglobulins in 16 victims of the syndrome and a series of infants (controls) who had died of non-pulmonary causes. Compared with the controls victims of the sudden infant death syndrome had grossly raised concentrations of IgG, IgM, and to a less extent IgA in lung lavage samples. In addition, pulmonary interstitial and terminal airway cells expressing these immunoglobulins were identified far more often in victims than controls. The study failed to determine whether the increased immunoglobulin concentrations were a consequence of an unusual response to a trivial infection or an expression of otherwise altered immunological control in the respiratory tract. Epidemiological evidence and the findings of this study suggest that the respiratory tract is the prime target organ in the sudden infant death syndrome.

Metabolism of 7,12-dimethylbenz[a]anthracene by mouse mammary cells in serum-free organ culture medium

The murine mammary gland is a prime target organ for 7,12-dimetyl-benz-[a]anthracene, (DMBA)-induced carcinogenesis. We analyzed the metabolism of 3H-DMBA in a cell-free microsomal activation system derived from mouse mammary microsomes and in a whole mammary organs in culture. The i vitro microsomal activation system failed to show the more polar diol derivative of DMBA after HPLC. The metabolites obtained directly from the 3H-DMBA-treated whole mammary organs, however, revealed the presence of both the diol as well as the phenolic derivatives of DMBA. Analysis of the glands and the culture medium further showed that nearly 95% of the radioactivity added to the culture medium was associated with the adipose tissue and complete solubilization of the fat pad released substantial amounts of DMBA and its metabolites. It appears that a large portion of DMBA and its metabolites remain entrapped in the adipose tissue surrounding the parenchyma. Formic acid digestion of the gland releases the DMBA and the metabolites allowing their ethylacetate extraction, and HPLC characterization.

Hormonal regulation of phosphate transport in the differentiating chick small intestine.

The intestine is the prime target organ of vitamin D where the sterol, by virtue of its active metabolite 1,25-dihydroxy-vitamin D3, promotes calcium and inorganic phosphate (Pi) absorption (for review see Wasserman, 1981).

Vitamin D-dependent rickets: actions of parathyroid hormone and 25-hydroxycholecalciferol.

Extract: During active rickets, the increase in 3′,5′-adenosine monophosphate (3′,5′-AMP) excretion after infusion of parathyroid hormone (PTH) can be claimed as a demonstration of PTH responsiveness, at least as far as the kidney is concerned (Table II). In patients with vitamin D-dependent rickets, following 25-HCC therapy, the basal excretion ratios of nanomoles 3′,5′-AMP/milligrams creatinine fall within the normal range, and, although the basal ratios of milligrams phosphate/milligrams creatinine excretion decrease to normal (Tables III, IV, and V), a phosphaturic response to PTH is still not evident. The high basal ratios of nanomoles 3′,5′-AMP/ milligrams creatinine and milligrams phosphate/milligrams creatinine suggest underlying hyperparathyroidism during a phase of this syndrome marked by hypocalcemia and hyperaminoaciduria. During 2-day PTH challenges, while rickets was active, the peak increases in serum calcium above base line were 1.92, 1.80, and 1.86 mg/100 ml. After treatment with 25-hydroxycholecalciferol (25-HCG), no further significant increases in serum calcium above base line could be elicited (Tables VI, VII, VIII). It would seem, therefore, that, while these patients were untreated, small but sufficient amounts of 25-HCC or another metabolite of vitamin D were available to permit the calcium-mobilizing action of PTH on bone. The observed hypocalcemia in vitamin D-dependent rickets, then, is most likely secondary to a defect in gastrointestinal absorption. Mineral balance studies during active rickets revealed an absorptive defect for calcium, phosphorus, and magnesium—a defect completely reversible after 25-HCC treatment. Speculation: We suggest that the small intestine represents the prime target organ site for impaired vitamin D action in this disease by differential failure in the biologic formation of 1,25-dihydroxycholecalciferol from 25-HCC. Similarly, we postulate that a variable hydroxylating deficiency may be present in the transformation of vitamin D3 to 25-HCC. Genetic heterogeneity, therefore, may ultimately explain common responses in these three patients to contrasting doses of dihydrotachysterol (DHT) and 25-HCC.

Alterations in Host Responses to Experimental Candida Albicans Infections by Bacterial Endotoxin

Abstract Some of the mechanisms responsible for endotoxin-induced resistance to experimental Candida albicans infection in mice have been investigated. Maximal protection has been demonstrated at 1 and 6 days after endotoxin and serum factors have been shown to be important in both. The enhanced resistance to candidiasis observed 1 day following endotoxin is primarily due to transferable serum factor(s). At this time, organisms are cleared from the blood stream at an increased rate. However, this effect does not appear to be due to either the presence of serum opsonins or enhanced function of the reticuloendothelial system. In animals given endotoxin 6 days previously, there is significantly less proliferation of C. albicans in the kidney, the prime target organ of this infection. Serum factors present in the blood of these animals inhibit the growth of C. albicans in vitro. Therefore, at least two, probably different, serum factors seem to be involved in endotoxin-induced resistance. These serum factors may also require as yet undefined cellular mechanisms to produce the effects that were noted.