Post-transcriptional control during chronic inflammation and cancer: a focus on AU-rich elements

A considerable number of genes that code for AU-rich mRNAs including cytokines, growth factors, transcriptional factors, and certain receptors are involved in both chronic inflammation and cancer. Overexpression of these genes is affected by aberrations or by prolonged activation of several signaling pathways. AU-rich elements (ARE) are important cis-acting short sequences in the 3′UTR that mediate recognition of an array of RNA-binding proteins and affect mRNA stability and translation. This review addresses the cellular and molecular mechanisms that are common between inflammation and cancer and that also govern ARE-mediated post-transcriptional control. The first part examines the role of the ARE-genes in inflammation and cancer and sequence characteristics of AU-rich elements. The second part addresses the common signaling pathways in inflammation and cancer that regulate the ARE-mediated pathways and how their deregulations affect ARE-gene regulation and disease outcome

Biochemical Basis And Clinical Consequences Of Glucolipotoxicity: A Primer

Both glucose and fatty acids may have good/adaptive or toxic/maladaptive actions on the pancreatic beta cell, depending on their concentrations. Hyperglycemia, via metabolic intermediates, may result in multiple cellular effects that are toxic to the pancreatic beta cell and indeed other tissues. While free fatty acids may affect cellular processes beyond lipid metabolism by interacting with transcription factors, triglyceride rich lipoproteins are endothelial cell-toxic and facilitate atherogenesis. The paradigm of glucolipotoxicity espouses that increased glucose and fatty acid levels act synergistically in causing toxicity to pancreatic islets and other organs, a process that eventually leads to the multiple defects seen in the metabolic syndrome and diabetes mellitus. © 2012 Elsevier Inc

Biochemical Basis and Clinical Consequences of Glucolipotoxicity

Both glucose and fatty acids may have good/adaptive or toxic/maladaptive actions on the pancreatic beta cell, depending on their concentrations. Hyperglycemia, via metabolic intermediates, may result in multiple cellular effects that are toxic to the pancreatic beta cell and indeed other tissues. While free fatty acids may affect cellular processes beyond lipid metabolism by interacting with transcription factors, triglyceride rich lipoproteins are endothelial cell-toxic and facilitate atherogenesis. The paradigm of glucolipotoxicity espouses that increased glucose and fatty acid levels act synergistically in causing toxicity to pancreatic islets and other organs, a process that eventually leads to the multiple defects seen in the metabolic syndrome and diabetes mellitus. © 2012 Elsevier Inc

­­Eleven tips for operational researchers working with health programmes: our experience based on implementing differentiated tuberculosis care in south India

Due to the workload and lack of a critical mass of trained operational researchers within their ranks, health systems and programmes may not be able to dedicate sufficient time to conducting operational research (OR). Hence, they may need the technical support of operational researchers from research/academic organisations. Additionally, there is a knowledge gap regarding implementing differentiated tuberculosis (TB) care in programme settings. In this ‘how we did it’ paper, we share our experience of implementing a differentiated TB care model along with an inbuilt OR component in Tamil Nadu, a southern state in India. This was a health system initiative through a collaboration of the State TB cell with the Indian Council of Medical Research institutes and the World Health Organisation country office in India. The learnings are in the form of eleven tips: four broad principles (OR on priority areas and make it a health system initiative, implement simple and holistic ideas, embed OR within routine programme settings, aim for long-term engagement), four related to strategic planning (big team of investigators, joint leadership, decentralised decision-making, working in advance) and three about implementation planning (conducting pilots, smart use of e-tools and operational research publications at frequent intervals). These may act as a guide for other Indian states, high TB burden countries that want to implement differentiated care, and for operational researchers in providing technical assistance for strengthening implementation and conducting OR in health systems and programmes (TB or other health programmes). Following these tips may increase the chances of i) an enriching engagement, ii) policy/practice change, and iii) sustainable implementation