Polk mutant mice have a spontaneous mutator phenotype

Mice defective for the Polk gene, which encodes DNA polymerase kappa, are viable and do not manifest obvious phenotypes. The present studies document a spontaneous mutator phenotype in Polk^?/? mice. The initial indication of enhanced spontaneous mutations in these mice came from the serendipitous observation of a postulated founder mutation that manifested in multiple disease states among a cohort of mice comprising all three possible Polk genotypes. Polk^?/? and isogenic wild-type controls carrying a reporter transgene (the λ-phage cII gene) were used for subsequent quantitative and qualitative studies on mutagenesis in various tissues. We observed significantly increased mutation frequencies in the kidney, liver, and lung of Polk^?/? mice, but not in the spleen or testis. G:C base pairs dominated the mutation spectra of the kidney, liver, and lung. These results are consistent with the notion that Polκ is required for accurate translesion DNA synthesis past naturally occurring polycyclic guanine adducts, possibly generated by cholesterol and/or its metabolites.     

Unique and analogous functions of aquaporin 0 for fiber cell architecture and ocular lens transparency

Aquaporin (AQP) 1 and AQP0 water channels are expressed in lens epithelial and fiber cells, respectively, facilitating fluid circulation for nourishing the avascular lens to maintain transparency. Even though AQP0 water permeability is 40-fold less than AQP1, AQP0 is selectively expressed in the fibers. Delimited AQP0 fiber expression is attributed to a unique structural role as an adhesion protein. To validate this notion, we determined if wild type (WT) lens ultrastructure and fiber cell adhesion are different in AQP0^−/−, and TgAQP1^+/+/AQP0^−/− mice that transgenically express AQP1 (TgAQP1) in fiber cells without AQP0 (AQP0^−/−). In WT, lenses were transparent with ‘Y’ sutures. Fibers contained opposite end curvature, lateral interdigitations, hexagonal shape, and were arranged as concentric growth shells. AQP0^−/− lenses were cataractous, lacked ‘Y’ sutures, ordered packing and well-defined lateral interdigitations. TgAQP1^+/+/AQP0^−/− lenses showed improvement in transparency and lateral interdigitations in the outer cortex while inner cortex and nuclear fibers were severely disintegrated. Transmission electron micrographs exhibited tightly packed fiber cells in WT whereas AQP0^−/− and TgAQP1^+/+/AQP0^−/− lenses had wide extracellular spaces. Fibers were easily separable by teasing in AQP0^−/− and TgAQP1^+/+/AQP0^−/− lenses compared to WT. Our data suggest that the increased water permeability through AQP1 does not compensate for loss of AQP0 expression in TgAQP1^+/+/AQP0^−/− mice. Fiber cell AQP0 expression is required to maintain their organization, which is a requisite for lens transparency. AQP0 appears necessary for cell-to-cell adhesion and thereby to minimize light scattering since in the AQP0^−/− and TgAQP1^+/+/AQP0^−/− lenses, fiber cell disorganization was evident.     

Decreased expression of klotho gene in uremic atherosclerosis in apolipoprotein E-deficient mice

Chronic renal failure (CRF) markedly accelerates the development of atherosclerosis, but the pathogenesis of uremic atherosclerosis remains to be elucidated. The klotho gene, predominantly expressed in the kidney, plays a key role in regulating aging and the development of age-related diseases in mammals. A loss of klotho results in multiple aging-like phenotypes including atherosclerosis. This study examines the relationship between the klotho expression and the development of accelerated atherosclerosis in uremic state.Eight-week-old apolipoprotein E-deficient (apo-E^−/−) male mice underwent 5/6 partial kidney ablation to induce CRF or sham-operation. At 6 wk after nephrectomy, CRF mice showed significantly increased aortic plaque area fraction, aortic root plaque area and aortic cholesterol content as compared with non-CRF mice. Serum urea, total cholesterol and triglyceride concentrations were significantly higher in CRF apo-E^−/− mice compared with non-CRF controls. Moreover, the expression of renal klotho gene and the serum levels of klotho protein were markedly decreased in CRF mice compared with controls.These results suggested that CRF favored atherosclerosis in apo-E^−/− mice and uremic atherosclerosis was accompanied by down-regulation of klotho expression.     

Bile acids override steatosis in farnesoid X receptor deficient mice in a model of non-alcoholic steatohepatitis

Non-alcoholic fatty liver disease (NAFLD) is one of the most common liver diseases, and the pathogenesis is still not well known. The farnesoid X receptor (FXR) is a member of the nuclear hormone receptor superfamily and plays an essential role in maintaining bile acid and lipid homeostasis. In this study, we study the role of FXR in the pathogenesis of NFALD. We found that FXR deficient (FXR^−/−) mice fed methionine- and choline-deficient (MCD) diet had higher serum ALT and AST activities and lower hepatic triglyceride levels than wild-type (WT) mice fed MCD diet. Expression of genes involved in inflammation (VCAM-1) and fibrosis (α-SMA) was increased in FXR^−/− mice fed MCD diet (FXR^−/−/MCD) compared to WT mice fed MCD diet (WT/MCD). Although MCD diet significantly induced hepatic fibrosis in terms of liver histology, FXR^−/−/MCD mice showed less degree of hepatic steatosis than WT/MCD mice. Moreover, FXR deficiency synergistically potentiated the elevation effects of MCD diet on serum and hepatic bile acids levels. The super-physiological concentrations of hepatic bile acids in FXR^−/−/MCD mice inhibited the expression of genes involved in fatty acid uptake and triglyceride accumulation, which may be an explanation for less steatosis in FXR^−/−/MCD mice in contrast to WT/MCD mice. These results suggest that hepatic bile acids accumulation could override simple steatosis in hepatic injury during the progression of NAFLD and further emphasize the role of FXR in maintaining hepatic bile acid homeostasis in liver disorders and in hepatic protection.     

Markers of squamous cell carcinoma in sarco/endoplasmic reticulum Ca ATPase 2 heterozygote mice keratinocytes

A mutation of Atp2a2 gene encoding the sarco/endoplasmic reticulum Ca²⁺-ATPase 2 (SERCA2) causes Darier's disease in human and null mutation in one copy of Atp2a2 leads to a high incidence of squamous cell tumor in a mouse model. In SERCA2 heterozygote (SERCA2^+/−) mice keratinocytes, mechanisms involved in partial depletion of SERCA2 gene and its related tumor induction have not been studied. In this study, we investigated Ca²⁺ signaling and differential gene expression in primary cultured keratinocytes from SERCA2^+/− mice. SERCA2^+/− keratinocytes showed reduced initial increases in intracellular concentration of calcium in response to ATP, a G-protein coupled receptor agonist, and higher store-operated Ca²⁺ entry with the treatment of thapsigargin, an inhibitor of SERCA, compared to wild type kerationcytes. Protein expressions of plasma membrane Ca²⁺ ATPases, NFATc1, phosphorylated ERK, JNK, and phospholipase γ1 were increased in SERCA2^+/− keratinocytes. Using the gene fishing system, we first found in SERCA2^+/− keratinocytes that gene level of tumor-associated calcium signal transducer 1, crystalline αB, procollagen XVIII α1, and nuclear factor I-B were increased. Expression of involucrin, a marker of keratinocyte differentiation, was decreased in SERCA2^+/− keratinocytes. These results suggest that the alterations of Ca²⁺ signaling by SERCA2 haploinsufficiency alternate the gene expression of tumor induction and differentiation in keratinocytes.     

Interplay among replicative and specialized DNA polymerases determines failure or success of translesion synthesis pathways

Living cells possess a panel of specialized DNA polymerases that deal with the large diversity of DNA lesions that occur in their genomes. How specialized DNA polymerases gain access to the replication intermediate in the vicinity of the lesion is unknown. Using a model system in which a single replication blocking lesion can be bypassed concurrently by two pathways that leave distinct molecular signatures, we analyzed the complex interplay among replicative and specialized DNA polymerases. The system involves a single N-2-acetylaminofluorene guanine adduct within the NarI frameshift hot spot that can be bypassed concurrently by Pol II or Pol V, yielding a −2 frameshift or an error-free bypass product, respectively. Reconstitution of the two pathways using purified DNA polymerases Pol III, Pol II and Pol V and a set of essential accessory factors was achieved under conditions that recapitulate the known in vivo requirements. With this approach, we have identified the key replication intermediates that are used preferentially by Pol II and Pol V, respectively. Using single-hit conditions, we show that the β-clamp is critical by increasing the processivity of Pol II during elongation of the slipped −2 frameshift intermediate by one nucleotide which, surprisingly, is enough to support subsequent elongation by Pol III rather than degradation. Finally, the proofreading activity of the replicative polymerase prevents the formation of a Pol II-mediated −1 frameshift product. In conclusion, failure or success of TLS pathways appears to be the net result of a complex interplay among DNA polymerases and accessory factors.     

MDOC and atorvastatin have potential antiinflammatory effects in vascular endothelium of apoE-/- mouse model of atherosclerosis

Members of the immunoglobulin superfamily of endothelial adhesion molecules, vascular cell adhesion molecule (VCAM-1) and intercellular cell adhesion molecule (ICAM- 1), strongly participate in leukocyte adhesion to the endothelium and play an important role in all stages of atherogenesis. The aim of this study was to detect and quantify the changes of endothelial expression of VCAM-1, and ICAM-1 in the vessel wall after the short-term administration of simvastatin, atorvastatin, and micro dispersed derivatives of oxidised cellulose (MDOC™) in apolipoprotein-E-deficient (apoE^−/−) mice atherosclerotic model. Hyperlipidemic apoE^−/− mice (n = 32) received normal chow diet or diet containing simvastatin or atorvastatin 10 mg/kg/day or MDOC™ 50 mg/kg/day. Total cholesterol, VLDL, LDL, HDL and TAG were measured and the endothelial expression of VCAM-1 and ICAM-1 was visualized and quantified by means of immunohistochemistry and stereology, respectively. Total cholesterol levels was insignificantly lowered only in MDOC™ treated mice but not in mice treated with statins. ICAM-1 endothelial expression was not affected by neither simvastatin nor MDOC™ treatment. However, significant diminution of VCAM-1 endothelial expression was observed in both atorvastatin and MDOC™ treated mice. These results provide new information of potential hypolipidemic substance MDOC™ and its potential anti-inflammatory effects. Furthermore, we have confirmed anti-inflammatory effects of atorvastatin independent of plasma cholesterol lowering. Thus, the results of this study show potential benefit of both MDOC™ and atorvastatin treatment in apoE^−/− mouse model of atherosclerosis suggesting their possible combination might be of interest.     

Gene expression of LOX-1, VCAM-1, and ICAM-1 in pre-atherosclerotic mice

To identify markers of the earliest stage of atherosclerosis, endothelial dysfunction, we evaluated the gene expression of lectin-like oxidized-low-density-lipoprotein receptor-1 (LOX-1), vascular cell adhesion molecule-1 (VCAM-1), and intercellular adhesion molecule-1 (ICAM-1) in very young pre-atherosclerotic mice. Furthermore, the plasma levels of the soluble VCAM-1 and ICAM-1 were compared to the gene expression profiles. Gene expressions of LOX-1 and VCAM-1 were up-regulated in young apoE^−/− mice, and thus, it seems probable that these genes play a role in pre-atherosclerosis. Contrarily, the gene expression profile of ICAM-1 did not show any apparent differences between the groups, questioning the involvement of this molecule in the early development of atherosclerosis. Plasma levels of sVCAM-1 and sICAM-1 were similar in all mice and did not correlate with the vascular gene expression of the corresponding genes. It therefore seems likely that these circulating markers are not suited to detect early atherosclerosis.     

O-Methylguanine-DNA methyltransferase (MGMT) in normal tissues and tumors: Enzyme activity,promoter methylation and immunohistochemistry

O⁶-Methylguanine-DNA methyltransferase (MGMT) is a suicide enzyme that repairs the pre-mutagenic, pre-carcinogenic and pre-toxic DNA damage O⁶-methylguanine. It also repairs larger adducts on the O⁶-position of guanine, such as O(6)-[4-oxo-4-(3-pyridyl)butyl]guanine and O⁶-chloroethylguanine. These adducts are formed in response to alkylating environmental pollutants, tobacco-specific carcinogens and methylating (procarbazine, dacarbazine, streptozotocine, and temozolomide) as well as chloroethylating (lomustine, nimustine, carmustine, and fotemustine) anticancer drugs. MGMT is therefore a key node in the defense against commonly found carcinogens, and a marker of resistance of normal and cancer cells exposed to alkylating therapeutics. MGMT also likely protects against therapy-related tumor formation caused by these highly mutagenic drugs. Since the amount of MGMT determines the level of repair of toxic DNA alkylation adducts, the MGMT expression level provides important information as to cancer susceptibility and the success of therapy. In this article, we describe the methods employed for detecting MGMT and review the literature with special focus on MGMT activity in normal and neoplastic tissues. The available data show that the expression of MGMT varies greatly in normal tissues and in some cases this has been related to cancer predisposition. MGMT silencing in tumors is mainly regulated epigenetically and in brain tumors this correlates with a better therapeutic response. Conversely, up-regulation of MGMT during cancer treatment limits the therapeutic response. In malignant melanoma, MGMT is not related to the therapeutic response, which is due to other mechanisms of inherent drug resistance. For most cancers, studies that relate MGMT activity to therapeutic outcome following O⁶-alkylating drugs are still lacking.     

Edible blue-green algae reduce the production of pro-inflammatory cytokines by inhibiting NF-κB pathway in macrophages and splenocytes

Background

Chronic inflammation contributes to the development of pathological disorders including insulin resistance and atherosclerosis. Identification of anti-inflammatory natural products can prevent the inflammatory diseases.

Methods

Anti-inflammatory effects of blue-green algae (BGA), i.e., Nostoc commune var. sphaeroides Kützing (NO) and Spirulina platensis (SP), were compared in RAW 264.7 and mouse bone marrow-derived macrophages (BMM) as well as splenocytes from apolipoprotein E knockout (apoE^−/−) mice fed BGA.

Results

When macrophages pretreated with 100 μg/ml NO lipid extract (NOE) or SP lipid extract (SPE) were activated by lipopolysaccharide (LPS), expression and secretion of pro-inflammatory cytokines, such as tumor necrosis factor α (TNFα), interleukin 1β (IL-1β), and IL-6, were significantly repressed. NOE and SPE also significantly repressed the expression of TNFα and IL-1β in BMM. LPS-induced secretion of IL-6 was lower in splenocytes from apoE^−/− fed an atherogenic diet containing 5% NO or SP for 12 weeks. In RAW 264.7 macrophages, NOE and SPE markedly decreased nuclear translocation of NF-κB. The degree of repression of pro-inflammatory gene expression by algal extracts was much stronger than that of SN50, an inhibitor of NF-κB nuclear translocation. Trichostatin A, a pan histone deacetylase inhibitor, increased basal expression of IL-1β and attenuated the repression of the gene expression by SPE. SPE significantly down-regulated mRNA abundance of 11 HDAC isoforms, consequently increasing acetylated histone 3 levels.

Conclusion

NOE and SPE repress pro-inflammatory cytokine expression and secretion in macrophages and splenocytes via inhibition of NF-κB pathway. Histone acetylation state is likely involved in the inhibition.

General significance

This study underscores natural products can exert anti-inflammatory effects by epigenetic modifications such as histone acetylation.     

Impact of the loss of caveolin-1 on lung mass and cholesterol metabolism in mice with and without the lysosomal cholesterol transporter,Niemann–Pick type C1

Caveolin-1 (Cav-1) is a major structural protein in caveolae in the plasma membranes of many cell types, particularly endothelial cells and adipocytes. Loss of Cav-1 function has been implicated in multiple diseases affecting the cardiopulmonary and central nervous systems, as well as in specific aspects of sterol and lipid metabolism in the liver and intestine. Lungs contain an exceptionally high level of Cav-1. Parameters of cholesterol metabolism in the lung were measured, initially in Cav-1-deficient mice (Cav-1^−/−), and subsequently in Cav-1^−/− mice that also lacked the lysosomal cholesterol transporter Niemann–Pick C1 (Npc1) (Cav-1^−/−:Npc1^−/−). In 50-day-old Cav-1^−/− mice fed a low- or high-cholesterol chow diet, the total cholesterol concentration (mg/g) in the lungs was marginally lower than in the Cav-1^+/+ controls, but due to an expansion in their lung mass exceeding 30%, whole-lung cholesterol content (mg/organ) was moderately elevated. Lung mass (g) in the Cav-1^−/−:Npc1^−/− mice (0.356 ± 0.022) markedly exceeded that in their Cav-1^+/+:Npc1^+/+ controls (0.137 ± 0.009), as well as in their Cav-1^−/−:Npc1^+/+ (0.191 ± 0.013) and Cav-1^+/+:Npc1^−/− (0.213 ± 0.022) littermates. The corresponding lung total cholesterol contents (mg/organ) in mice of these genotypes were 6.74 ± 0.17, 0.71 ± 0.05, 0.96 ± 0.05 and 3.12 ± 0.43, respectively, with the extra cholesterol in the Cav-1^−/−:Npc1^−/− and Cav-1^+/+:Npc1^−/− mice being nearly all unesterified (UC). The exacerbation of the Npc1 lung phenotype and increase in the UC level in the Cav-1^−/−:Npc1^−/− mice imply a regulatory role of Cav-1 in pulmonary cholesterol metabolism when lysosomal sterol transport is disrupted.     

Epithelial transport and barrier function in occludin-deficient mice

Background and Aims

This study aimed at functional characterization of the tight junction protein occludin using the occludin-deficient mouse model.

Methods

Epithelial transport and barrier functions were characterized in Ussing chambers. Impedance analysis revealed the ionic permeability of the epithelium (R^e, epithelial resistance). Conductance scanning differentiated transcellular (G^c) and tight junctional conductance (G^tj). The pH-stat technique quantified gastric acid secretion.

Results

In occludin+/+ mice, R^e was 23±5 Ω cm² in jejunum, 66±5 Ω cm² in distal colon and 33±6 Ω cm² in gastric corpus and was not altered in heterozygotic occludin+/− or homozygotic occludin−/− mice. Additionally, [³H]mannitol fluxes were unaltered. In the control colon, G^c and G^tj were 7.6±1.0 and 0.3±0.1 mS/cm² and not different in occludin deficiency. Epithelial resistance after mechanical perturbation or EGTA exposition (low calcium switch) was not more affected in occludin−/− mice than in control. Barrier function was measured in the urinary bladder, a tight epithelium, and in the stomach. Control R^t was 5.8±0.8 kΩ cm² in urinary bladder and 33±6 Ω cm² in stomach and not altered in occludin−/− mice. In gastric corpus mucosa, the glandular structure exhibited a complete loss of parietal cells and mucus cell hyperplasia, as a result of which acid secretion was virtually abolished in occludin−/− mice.

Conclusion

Epithelial barrier characterization in occludin-deficiency points against an essential barrier function of occludin within the tight junction strands or to a substitutional redundancy of single tight junction molecules like occludin. A dramatic change in gastric morphology and secretory function indicates that occludin is involved in gastric epithelial differentiation.     

Genetic disruption of protein phosphatase 5 in mice prevents high-fat diet feeding-induced weight gain

The role of serine/threonine protein phosphatase 5 (PP5) in the development of obesity and insulin resistance associated with high-fat diet-feeding (HFD) was examined using PP5-deficient mice (Ppp5c^−/−). Despite similar caloric intake, Ppp5c^−/− mice on HFD gained markedly less weight and did not accumulate visceral fat compared to wild-type littermates (Ppp5c^+/+). On a control diet, Ppp5c^−/− mice had markedly improved glucose control compared to Ppp5c^+/+ mice, an effect diminished by HFD. However, even after 10 weeks of HFD glucose control in Ppp5c^−/− mice was similar to that observed in Ppp5c^+/+ mice on the control diet. Thus, PP5 deficiency confers protection against HFD-induced weight gain in mice.     

Atherosclerosis affects calcium signalling in endothelial cells from apolipoprotein E knockout mice before plaque formation

Little is known about how hypercholesterolaemia affects Ca²⁺ signalling in the vasculature of ApoE^−/− mice, a model of atherosclerosis. Our objectives were therefore to determine (i) if hypercholesterolaemia alters Ca²⁺ signalling in aortic endothelial cells before overt atherosclerotic lesions occur, (ii) how Ca²⁺ signals are affected in older plaque-containing mice, and (iii) whether Ca²⁺ signalling changes were translated into contractility differences. Using confocal microscopy we found agonist-specific Ca²⁺ changes in endothelial cells. ATP responses were unchanged in ApoE^−/− cells and methyl-β-cyclodextrin, which lowers cholesterol, was without effect. In contrast, Ca²⁺ signals to carbachol were significantly increased in ApoE^−/− cells, an effect methyl-β-cyclodextrin reversed. Ca²⁺ signals were more oscillatory and store-operated Ca²⁺ entry decreased as mice aged and plaques formed. Despite clearly increased Ca²⁺ signals, aortic rings pre-contracted with phenylephrine had impaired relaxation to carbachol. This functional deficit increased with age, was not related to ROS generation, and could be partially rescued by methyl-β-cyclodextrin. In conclusion, carbachol-induced calcium signalling and handling are significantly altered in endothelial cells of ApoE^−/− mice before plaque development. We speculate that reduction in store-operated Ca²⁺ entry may result in less efficient activation of eNOS and thus explain the reduced relaxatory response to CCh, despite the enhanced Ca²⁺ response.     

Toxoplasma gondii: The role of IFN-gamma, TNFRp55 and iNOS in inflammatory changes during infection

In order to examine the role of IFN-γ, TNFRp55 and iNOS in inflammatory reaction during toxoplasmosis, IFN-γ^−/−, TNFRp55^−/− and iNOS^−/− mice were experimentally infected with Toxoplasma gondii ME-49 strain. The organs of the mice were evaluated for histology and immunohistochemistry in detection of tissue parasitism and iNOS positive cells. IFN-γ^−/− mice presented mild inflammation in peripheral organs associated with a high parasitism and mortality in the acute phase of infection. In contrast, the peripheral organs of WT, TNFRp55^−/− and iNOS^−/− mice, presented a significant inflammatory reaction and low tissue parasitism in the same period of infection. The inflammatory lesions and tissue parasitism were increased and more severe in the Central Nervous System (CNS) of TNFRp55^−/− and iNOS^−/− with a progression of infection, when compared to WT mice. In these knockout animals, the inflammatory changes were associated with low levels or no expression of iNOS in TNFRp55^−/− and iNOS^−/− mice, respectively.     

Pathology of Tnf-deficient mice infected with Plasmodium chabaudi adami 408XZ

Tumor necrosis factor alpha (Tnf) plays a pleiotropic role in murine malaria. Some investigations have correlated Tnf with hypothermia, hyperlactatemia, hypoglycemia, and a suppression of the erythropoietic response, although others have not. In this study, we have evaluated parasitemia, survival rate and several pathological features in C57BL/6JTnf^−/− and C57BL/6JTnf^+/+ mice after infection with Plasmodium chabaudi adami 408XZ. Compared to the C57BL/6JTnf^+/+ mice, C57BL/6JTnf^−/− mice showed increased parasitemia and decreased survival rate, whereas blood glucose, blood lactate and body weight were not significantly different. However, C57BL/6JTnf^−/− mice suffered significantly more from severe anemia and hypothermia than C57BL/6JTnf^+/+ mice. These results suggest that Tnf is an important mediator of parasite control, but not of anemia development. We hypothesize that the high mortality observed in the Tnf knock-out mice is due to increased anemia and pathology as a direct result of increased levels of parasitemia.