Polymorphism of killer cell immunoglobulin-like receptors (KIR) and their HLA ligands in Graves’ disease

Killer immunoglobulin-like receptors (KIR) play a pivotal role in commencement of both innate and adaptive immunity. Dysregulation of KIRs is associated with an increased risk of autoimmune disorders. This study was designed to assess whether polymorphisms in KIR gene family and their respective HLA class I ligands confer protection or susceptibly to Graves’ disease (GD). Eighty patients with confirmed GD (cases) and 176 healthy unrelated subjects (controls) were recruited. Using a polymerase chain reaction sequence-specific primer directed method (PCR-SSP), presence or absence of KIR genes and their HLA ligands were determined. No significant differences were observed between case and control groups regarding individual KIR gene frequencies (p > 0.05 in all cases). The frequency of group A haplotype (the most common KIR haplotype, encompassing 2DL1/2DL3/3DL1/2DS4/2DP1/3DP1/2DL4/3DL2/3DL3), was not different between individuals with and without GD. Moreover, among all other haplotypes (group Bx), no significant differences regarding distribution of centromeric and telomeric gene clusters were identifiable. Inhibitory/activatory gene contents were also comparable between the two groups. Four models of KIR-HLA interaction (inhibition, activation, unrestrained inhibition, and unrestrained activation) were constructed. No combination proved to confer susceptibility to, or offer protection against GD. It seems that the contribution of KIR gene polymorphism to natural killer cell dysfunction and other autoimmune abnormalities observed in GD is limited.     

The impact of a 6-year comprehensive community trial on the awareness, treatment and control rates of hypertension in Iran: experiences from the Isfahan healthy heart program

Background

Acute mental stress may contribute to the cardiovascular disease progression via autonomic nervous system controlled negative effects on the endothelium. The joint effects of stress-induced sympathetic or parasympathetic activity and endothelial function on atherosclerosis development have not been investigated. The present study aims to examine the interactive effect of acute mental stress-induced cardiac reactivity/recovery and endothelial function on the prevalence of carotid atherosclerosis.

Methods

Participants were 81 healthy young adults aged 24-39 years. Preclinical atherosclerosis was assessed by carotid intima-media thickness (IMT) and endothelial function was measured as flow-mediated dilatation (FMD) using ultrasound techniques. We also measured heart rate, respiratory sinus arrhythmia (RSA), and pre-ejection period (PEP) in response to the mental arithmetic and speech tasks.

Results

We found a significant interaction of FMD and cardiac RSA recovery for IMT (p = 0.037), and a significant interaction of FMD and PEP recovery for IMT (p = 0.006). Among participants with low FMD, slower PEP recovery was related to higher IMT. Among individuals with high FMD, slow RSA recovery predicted higher IMT. No significant interactions of FMD and cardiac reactivity for IMT were found.

Conclusions

Cardiac recovery plays a role in atherosclerosis development in persons with high and low FMD. The role of sympathetically mediated cardiac activity seems to be more important in those with impaired FMD, and parasympathetically mediated in those with relatively high FMD. The development of endothelial dysfunction may be one possible mechanism linking slow cardiac recovery and atherosclerosis via autonomic nervous system mediated effect.     

CD133: An emerging prognostic factor and therapeutic target in colorectal cancer

Colorectal cancer (CRC) is one of the leading causes of death worldwide. Recently, the role of cancer stem cells (CSCs) has been highlighted as a crucial emerging factor in chemoresistance, cancer relapse, and metastasis. CD133 is a surface marker of CSCs and has been argued to have prognostic and therapeutic values in CRC along with its related pathways such as Wnt, Notch, and hedgehog. Several studies have successfully applied targeted therapies against CD133 in CRC models namely bispecific antibodies (BiAbs) and anti‐Wnt and notch pathways agents. These studies have yielded initial promising results in this regard. However, none of the therapeutics have been used in the clinical setting and their efficacy and adverse effects profile are yet to be elucidated. This review aims to gather the old and most recent data on the prognostic and therapeutic values of CD133 and CD133‐targeted therapies in CRC.     

Genomic structure, functional comparison, and tissue distribution of mouse Cd59a and Cd59b

CD59 is a crucial complement regulatory protein that inhibits the terminal step of the complement activation cascade by interfering with the binding of C9 to C5b-8, thus preventing the formation of the membrane attack complex (MAC). We recently reported that the mouse genome contains two Cd59 genes, while the human and rat genomes each contain only one Cd59 gene (Qian et al. 2000). Here, we describe the genomic structure, comparative activity, and tissue distribution of these two mouse genes, designated Cd59a and Cd59b. The mouse Cd59 genes encompass a total of 45.6 kb with each gene having four exons. Cd59a spans 19 kb, and Cd59b spans 15 kb, with approximately 11.6 kb of genomic DNA separating the two genes. The overall sequence similarity between Cd59a and Cd59b is approximately 60%. The sequence similarity between exon 2, exon 3, and exon 4 and the respective flanking regions between the two genes is over 85%, but exon 1 and its flanking regions are totally different. Comparative studies of the activity of both genes as inhibitors of MAC formation revealed that Cd59b has a specific activity that is six times higher than that of Cd59a. Using polyclonal antibodies specific to either Cd59a or Cd59b, we showed that Cd59a and Cd59b are both widely expressed in the kidneys, brain, lungs, spleen, and testis, as well as in the blood vessels of most mouse tissues. Interestingly, testicular Cd59a appeared to be expressed exclusively in spermatids, whereas Cd59b was expressed in more mature sperm cells. These results suggest that even though Cd59a and Cd59b are expressed in multiple tissues, they may play some different roles, particularly in reproduction. Received: 9 February 2001 / Accepted: 18 April 2001     

The effect of different levels of molasses on the digestibility,rumen parameters and blood metabolites in sheep fed processed broiler litter

A 28-d experiment was performed to evaluate the influence of replacing dietary corn/barley with molasses at levels of 0 (M0), 50 (M50) and 100 (M100) g/kg dietary dry matter (DM), as energy sources, in the diets containing heat-processed broiler litter (HBL) (240 g/kg DM) in male Moghani sheep. Digestibility, microbial protein supply (MPS), ruminal parameters and blood metabolites were measured. The digestibility of DM and crude protein (CP) in experimental sheep linearly increased (L, P=0.01) as level of molasses enhanced in the diets. Addition of molasses to diet linearly increased MPS (L, P=0.01) compared to sheep fed the control diet. Ruminal pH and ammonia concentrations linearly declined (L, P<0.05) as level of molasses increased in the diet. There was no difference (P>0.05) in ruminal volatile fatty acid concentrations, except a linear increase in the molar proportion of butyrate (L, P=0.02) among the molasses supplemented groups. Blood urea-N linearly decreased (L, P=0.02) in sheep fed molasses compared to the control group. It can be concluded that replacing corn/barley with molasses in sheep diet improved the utilization of the diet containing HBL.     

Anticancer activity of new imidazole derivative of 1R,2R-diaminocyclohexane palladium and platinum complexes as DNA fluorescent probes

The aim of this study was synthesis of two new water-soluble fluorescent palladium and platinum complexes with formulas of [Pt(DACH)(FIP)](NO₃)₂ and [Pd(DACH)(FIP)](NO₃)₂, respectively, where FIP is 2-(furan-2-yl)-1H-imidazo[4,5-f][1,10] phenanthroline and DACH is 1R,2R-diaminocyclohexane. Fluorescence spectroscopy, circular dichroism (CD), thermal denaturation measurement, ionic strength, and kinetic study displayed groove binding of Pt complex on DNA, while due to binding of Pd complex, B form of DNA convert to Z form. Due to electrostatic interaction of Pd complex with DNA, the DNA form is converted and it provides enough space for Pd complex to insert between base stacking of DNA. UV–vis study shows two complexes could denature the DNA at low concentrations in exothermic process and Pt complex is more active than Pd complex. Finally, the anticancer and growth inhibitory activities of synthesized complexes were investigated against human colon cancer cell line HCT116 after incubation time of 24 h using MTT assay and higher activity was observed for the platinum complex. Interaction of the two metal derivative complexes was studied by molecular docking and molecular dynamics simulation. The results showed that Pt complexes have higher negative docking energy and higher tendency for interaction with DNA, and exert more structural change on DNA.