Prevalence of Diabetic Nephropathy and associated risk factors among type 2 diabetes mellitus patients in Ramallah, Palestine.

AIMS: Albuminuria is an established marker for endothelial dysfunction and cardiovascular risk in diabetes and prediabetes. So we aimed to explore the prevalence of albuminuria (microalbuminuria and macroalbuminuria) in patients with type2 diabetes mellitus (DM) in the Palestinian community and to determine the association between albuminuria and other health care and biochemical indicators. MATERIALS AND METHODS: A cross-sectional study was carried out at private health care center. A total of 550 diabetic patients aged 35 years and above with type 2 diabetes mellitus who attended the clinic from May 2017 through February 2018 were included. Socio-demographic, clinical, and laboratory data were obtained from the medical records of patients. Statistical analysis was carried out using the Statistical Package for the Social Sciences (SPSS, version 23). RESULTS: Out of the 550 patients recruited, the mean age and duration of diabetes were 57.8 years and 9.5 years, respectively. Approximately 62% were being managed by oral hypoglycemic agents alone, 4.3% by insulin alone, 31.7% were on a combination of oral hypoglycemic agents and insulin and slightly less than 2% were on dietary measures alone. The mean value for HbA1c was 7.71%. The overall prevalence of albuminuria among participants was found to be 34.6%; microalbuminuria (29.3%) and macroalbuminuria (5.3%). CONCLUSION: Albuminuria is highly prevalent among Palestinian population with type 2 diabetes. This calls for early and universal screening of urinary albumin. There is also an urgent need for measures that target tight glycemic and optimal blood pressure control and the use of renin-angiotensin system blockade.

Antioxidant Potential of Solanum nigrum Aqueous Leaves Extract in Modulating Restraint Stress-Induced Changes in Rat's Liver.

INTRODUCTION: This study was carried out to evaluate the antioxidant potential of crude extract of Solanum nigrum leaves and its active constituents as treatment against restraint stress in rat's liver. METHODS: For this purpose, male albino Wistar rats were treated with crude extract of leaves and its alkaloid and flavonoid fractions both before and after 6 h of acute restraint stress. Prooxidant status of rat liver was assessed by determining the levels of thiobarbituric acid reactive substances, reduced glutathione, alkaline phosphatase, alanine transaminase, aspartate aminotransferase, and the activities of antioxidant enzymes superoxide dismutase (SOD), catalase (CAT), and glutathione S-transferase (GST). RESULTS: Six hours of restraint stress generated oxidative stress in rat's liver resulted in a significant rise in the level of the aforementioned liver enzymes. On the other hand, SOD, CAT, and GST enzymatic activities showed a significant decline in their level. The administration of crude leaves extract, both before and after stress exposure, significantly prevented the rise in the level of liver enzymes and reverted the activities of studied biochemical parameters toward their normal control values. However, the reversion was found to be more prominent in after-stress group. CONCLUSION: The aforementioned results highlight the significant antioxidant potential of S. nigrum extracts. On the basis of our study, we suggest the possible use of S. nigrum leaves extract as a nutritional supplement for combating oxidative stress induced damage.

Molecular and enzoinformatics perspectives of targeting Polo-like kinase 1 in cancer therapy.

Cancer is a disease that has been the focus of scientific research and discovery and continues to remain so. Polo-like kinases (PLKs) are basically serine/threonine kinase enzymes that control cell cycle from yeast to humans. PLK-1 stands for 'Polo-like kinase-1'. It is the most investigated protein among PLKs. It is crucial for intracellular processes, hence a 'hot' anticancer drug-target. Accelerating innovations in Enzoinformatics and associated molecular visualization tools have made it possible to literally perform a 'molecular level walk' traversing through and observing the minutest contours of the active site of relevant enzymes. PLK-1 as a protein consists of a kinase domain at the protein N-terminal and a Polo Box Domain (PBD) at the C-terminal connected by a short inter-domain linking region. PBD has two Polo-Boxes. PBD of PLK-1 gives the impression of "a small clamp sandwiched between two clips", where the two Polo Boxes are the 'clips' and the 'phosphopeptide' is the small 'clamp'. Broadly, two major sites of PLK-1 can be potential targets: one is the adenosine-5'-triphosphate (ATP)-binding site in the kinase domain and the other is PBD (more preferred due to specificity). Targeting PLK-1 RNA and the interaction of PLK-1 with a key binding partner can also be approached. However, the list of potent small molecule inhibitors targeting the PBD site of PLK-1 is still not long enough and needs due input from the scientific community. Recently, eminent scientists have proposed targeting the 'Y'-shaped pocket of PLK-1-PBD and encouraged design of ligands that should be able to concurrently bind to two or more modules of the 'Y' pocket. Hence, it is suggested that during molecular interaction analyses, particular focus should be kept on the moiety in each ligand/drug candidate which directly interacts with the amino acid residue(s) that belong(s) to one of the three binding modules which together create this Y-shaped cavity. This obviously includes (but it is not limited to) the 'shallow cleft'-forming residues i.e. Trp414, H538 and K540, as significance of these binding residues has been consistently highlighted by many studies. The present article attempts to give a concise yet critically updated overview of targeting PLK-1 for cancer therapy.

Recent Updates on the Association Between Alzheimer's Disease and Vascular Dementia.

The two most common forms of dementia are Alzheimer's disease (AD) followed by vascular dementia (VaD), together accounting for a whopping 60-80% of total dementia cases worldwide. Even though these diseases are recognized as 'common', they still remain underdiagnosed. Recent research suggests that AD and VaD are closely intertwined. The symptoms of AD and VaD can be similar and the two conditions can occur simultaneously. A large number of patients diagnosed with AD have also been reported with VaD-caused brain damage. Moreover, both the diseases have been reported to have similar risk factors. The overlap between these diseases is important because the lifestyle changes and medications prescribed to curb one of these diseases may also help curb the other. In the present review, we present an inclusive outline of parallelism between AD and VaD by exploring the potential commonalities at the mechanistic and therapeutic levels.

Integrating Qualitative and Quantitative Tools for the Detection and Identification of Lectins in Major Human Diseases.

Lectins are the (glyco)proteins that recognize and bind to specific sugar moieties without altering their structure. Galectins are mammalian lectins characterized by the presence of conserved 134 amino acids carbohydrate recognition domain and specificity for ß-galactosides. The involvement of lectins in diverse biological spectrum, especially some deadly human diseases like cancer, neurological disorders and cardiovascular disorders has proclaimed them as one of the important components of glycobiology, thereby seeking the methods of their detection and identification heavily desirable. In the present manuscript, we have provided a comprehensive outline of various methods of detection and identification of lectins employed till date, with their needs and usage varying according to the level of infrastructure of laboratories and around the world. In addition, a vision for some quick, highly sensitive and advanced methods for lectin detection and identification for diagnostic and therapeutic of various diseases is also provided.

Protein misfolding and aggregation in Alzheimer's disease and type 2 diabetes mellitus.

In general, proteins can only execute their various biological functions when they are appropriately folded. Their amino acid sequence encodes the relevant information required for correct three-dimensional folding, with or without the assistance of chaperones. The challenge associated with understanding protein folding is currently one of the most important aspects of the biological sciences. Misfolded protein intermediates form large polymers of unwanted aggregates and are involved in the pathogenesis of many human diseases, including Alzheimer's disease (AD) and Type 2 diabetes mellitus (T2DM). AD is one of the most prevalent neurological disorders and has worldwide impact; whereas T2DM is considered a metabolic disease that detrementally influences numerous organs, afflicts some 8% of the adult population, and shares many risk factors with AD. Research data indicates that there is a widespread conformational change in the proteins involved in AD and T2DM that form ß-sheet like motifs. Although conformation of these ß-sheets is common to many functional proteins, the transition from α-helix to ß-sheet is a typical characteristic of amyloid deposits. Any abnormality in this transition results in protein aggregation and generation of insoluble fibrils. The abnormal and toxic proteins can interact with other native proteins and consequently catalyze their transition into the toxic state. Both AD and T2DM are prevalent in the aged population. AD is characterized by the accumulation of amyloid-ß (Aß) in brain, while T2DM is characterized by the deposition of islet amyloid polypeptide (IAPP, also known as amylin) within beta-cells of the pancreas. T2DM increases pathological angiogenesis and immature vascularisation. This also leads to chronic cerebral hypoperfusion, which results in dysfunction and degeneration of neuroglial cells. With an abundance of common mechanisms underpinning both disorders, a significant question that can be posed is whether T2DM leads to AD in aged individuals and the associations between other protein misfolding diseases.