Trefoil factors

There is convincing evidence that trefoil factors (TFFs) do play an important role in tumourigenesis. However, their specific roles in cancer are not yet clear. Recently, TFFs have been shown to interfere with crucial biological processes such as cell proliferation, differentiation, apoptosis and angiogenesis. Research on the function of TFFs and its relationship with specific signal transduction pathways has also advanced significantly. As a consequence, some ideas about the role of TFFs in cancer have started to take shape. The objective of this review is to summarize and discuss current knowledge on the relationship between TFFs and cancer.     

Trefoil factors

No Abstract.  .     

Trefoil factors

Trefoil factor family (TFF) peptides have many in vivo and in vitro effects on restitution, wound healing, apoptosis, cell motility, adhesion and vectorial ion pumping, amongst others. (125)I-TFF peptides bind to cell membranes with classical saturable ability. It would be surprising if there were not TFF-protein interactions that would explain these actions, but to date no convincing TFF-binding partner has been shown which unambiguously takes part in any of these functions. Nevertheless, several TFF-binding proteins exist, including the small intestinal CRP-ductin (muclin), which binds TFF2, and the recently described gastric foveolar proteins TFIZ1 (TFF1-binding) and blottin (TFF2-binding), any of which may yet interact in novel ways to elicit TFF-mediated events. This review describes the expression and, where known, the functions of such proteins.     

Trefoil factors

Trefoil Factor 1 (TFF1), the first member of the trefoil factor family, is normally expressed in the stomach mucosa. Ectopic expression is also observed in various human pathological conditions, notably in numerous carcinomas and gastrointestinal acute inflammatory disorders. In vivo experimental data using TFF1-deficient mice highlight the pleiotropic functions of TFF1: (i) it is a gastric tumor suppressor gene involved in gastric ontogenesis and homeostasis; (ii) it protects gut mucosa from aggression; (iii) it participates in folding secreted proteins inside the endoplasmic reticulum. At the cellular level, it limits cell proliferation and apoptosis, and favors cell differentiation. Collectively, these data suggest that TFF1 may provide an alternative pharmacological tool for the prevention and treatment of human gastrointestinal diseases.     

Trefoil factors

Rapid repair of mucous epithelia is essential for preventing inflammation which is a critical component of cancer progression. 'Restitution' is an early repair process which can begin within minutes and is achieved via the migration of neighbouring cells into the wounded area. Mucosal restitution is a multistep process which requires continuous blood flow and includes at least (i) the reduction of cell-cell contacts and a shift in the cell shape towards a migratory phenotype (characteristics of the epithelial-mesenchymal transition), (ii) migration of cells, (iii) repolarization and formation of tight junctions (morphological restitution) and (iv) restoration of barrier function (transmucosal epithelial resistance, functional restitution). Secretory TFF (trefoil factor family) peptides TFF1, TFF2 and TFF3 are well known for their potent protective and healing effects after mucosal damage (function as 'luminal surveillance peptides'). Here, the contributions of the TFFs during the different steps of mucosal restitution are discussed, i. e. the modulation of cell-cell contacts, their motogenic activity and synergy with epidermal growth factor, their anti-apoptotic and pro-angiogenic effects. Special emphasis has been given to discussion of the various signal transduction networks triggered by TFFs. It is becoming increasingly clear that these pathways differ depending on the respective TFF.     

Trefoil factors

The protective effect of Trefoil Factor Family (TFF) proteins in the gastrointestinal tract by promoting the healing of injured mucosa is well known. An increasing body of evidence connects TFFs, especially, TFF2 and TFF3, with a possible role in immune regulation. TFF2 is able to inhibit lipopolysaccharide-induced nitric oxide production in monocytes and can potently limit leukocyte recruitment at the site of injury. An analysis of gene expression in gastrointestinal tissue of TFF2-deficient mice reveals some new aspects of TFF2's role in the immune response.     

Trefoil factors

The present review will include the mammalian trefoil factors, TFF1, TFF2 and TFF3. It will summarise the amino acid sequences from different species, their posttranslational modifications and their structures determined by X-ray analysis and nuclear magnetic resonance studies. Trefoil factors all have a well-defined, structurally conserved trefoil domain. The trefoil domain consists of 42 or 43 amino acid residues and contains 6 cysteine residues that form disulphide bonds in a 1-5, 2-4 and 3-6 configuration. By the establishment of an additional intra-molecular disulphide bond at the C-terminal end, TFF1 and TFF3 form homodimers or heterodimers. This dimer formation of TFF1 and TFF3 will be discussed, and the possible implications for biological activity will be reviewed. The physicochemical characteristics including protease stability of trefoil factors will be summarised. The biological implications of different molecular forms of trefoil factors and their interaction with mucins will be discussed together with other functional insights.     

Secondary teratogenic factors

Resumen La desviación del tubo nervioso y de la notocorda en dirección ventral, provocada por electrocoagulación en la proximidad del del nódulo primitivo en embriones de pollo de 48 horas, da lugar a la fusión de esas estructuras con el tracto intestinal. La interacción entre estos tejidos, que normalmente no están en contacto, origina malformaciones intestinales. La interacción anormal entre tejidos se puede considerar, pues, como un factor teratógeno secundario.     

Blood-borne factors affecting vascular tone

Résumé La «vasoconstrictine» (Battelli 1905), c'est-à-dire l'ensemble des vasoconstricteurs «effectifs» dissous dans le plasma du lapin, consiste en un mélange de sérotonine, SVPx (substance non-identifiée) et d'histamine. Par l'usage d'une antisérotonine sélective, DBMC, et d'une mépyramine antihistaminique, il a été possible de reconnaître et d'isoler SVPx. La concentration des catécholamines dans le plasma n'est pas suffisante pour produire une contraction de la paroi d'une artère.

---

---

This study was supported, in part, by grants from the Ontario Heart Foundation grant No. 5-5, and from the Medical Research Council of Canada, grant No. MA-2046.     

Vascular growth factors in neuropsychiatry

Recent advances in understanding the cellular and molecular basis of psychiatric illnesses have shed light on the important role played by trophic factors in modulating functional parameters associated with disease causality and drug action. Disease mechanisms are now thought to involve multiple cell types, including neurons and endothelial cells. These functionally distinct but interactively coupled cell types engage in cellular cross talk via shared and common signaling molecules. Dysregulation in their cellular signaling pathways influences brain function and alters behavioral performance. Multifunctional trophic factors such as VEGF and EPO that possess both neurotrophic and angiogenic actions are of particular interest due to their ability to rescue structural and plasticity deficits in neurons and vasculature. Obtaining insight into the behavioral, cellular and molecular actions of multi-functional trophic factors has the potential to open new and transformative therapeutic approaches.     

Key factors in mTOR regulation

Mammalian target of rapamycin (mTOR) is a protein serine/threonine kinase that controls a wide range of growth-related cellular processes. In the past several years, many factors have been identified that are involved in controlling mTOR activity. Those factors in turn are regulated by diverse signaling cascades responsive to changes in intracellular and environmental conditions. The molecular connections between mTOR and its regulators form a complex signaling network that governs cellular metabolism, growth and proliferation. In this review, we discuss some key factors in mTOR regulation and mechanisms by which these factors control mTOR activity.     

Genetic factors for human obesity

Obesity is a multifactorial and heterogeneous condition that results from alterations of various genes, each having a partial and additive effect. The inheritance pattern of obesity is thus complex, and environmental factors play an important role in promoting or delaying its development. The identification of susceptibility genes and genetic variants for obesity requires various methodological approaches. Obesity is classified into three main categories on the basis of genetic etiology: monogenic, syndromic, and polygenic obesity. Here we review monogenic and syndromic obesity. We also review the linkage analysis studies followed by the candidate gene approaches and genome-wide association studies. Identification of the underlying genetic causes of obesity will likely provide a basis both for the development of new therapeutic agents and for the personalized prevention of this condition. Received 2 October 2007; received after revision 15 November 2007; accepted 19 November 2007