Current Molecular Medicine - Volume 6, Issue 4, 2006

Estrogens are essential for human health. Their physiological effects are primarily mediated by two types of intracellular estrogen receptors (ERα and ERβ) that function as DNA-binding transcription factors. However, estrogens are also involved in the development and progression of breast cancers. Endocrine therapy aims to reduce the availability of the hormone or to counteract its action. This can be achieved by preventing estrogen production or administrating antiestrogens (AEs), synthetic drugs belonging to several distinct structural categories. Selective estrogen receptor modulators (or SERMs) bind ERs but have a mixed agonist/antagonist profile. Selective estrogen receptor downregulators (or SERDs) are pure antiestrogens, acting by decreasing the level of ERs through their ubiquitinylation and subsequent targeting to the proteasome. We review most of the usual antiestrogenic therapies for estrogen-dependent and estrogen-independent solid cancers and present our recent results on the use of AEs against multiple myeloma. In breast cancer treatments, the most commonly used antiestrogen, tamoxifen, has major limitations: side effects due to its partial agonist activity and constitutive or acquired resistance. We propose that novel AE drug delivery systems may enhance the overall beneficial effects by targeting tumoral cells.

Islet cell transplantation is an attractive alternative therapy to conventional insulin treatment or vascularized whole pancreas transplantation for type 1 diabetic patients. It represents a successful example of somatic cell therapy in humans based on complex procedures for islet isolation from whole pancreas. The islets, that are only 1% of the total pancreas tissue, are isolated by two steps method starting with collagenase digestion that operates a rapid dissociation of the stromal component of the gland, while preserving islet anatomical integrity. After digestion, islets are then separated from exocrine tissue by centrifugation in density gradients. Transplantation consists of a simple injection of few milliliter-purified tissue in the portal vein through a percutaneous trans- hepatic approach performed in local anesthesia. Several studies have now demonstrated that islet transplant can replace pancreatic endocrine function without major side effects and with liver viability preservation in selected patients affected by longterm type 1 diabetes. It can restore endogenous insulin secretion, achieve insulin independence in more than 80% of patients, and recover the metabolism of glucose, protein and lipids. Improved control of glycated HbA1c, reduced risk of recurrent hypoglycemia and of diabetic complications are also seen as important benefits of islet cell transplantation, irrespective of the status of insulin independence. Many protocols are now on going for reduction of immunosuppression therapy in recipients, induction of tolerance, and prolongation of graft function.

Apoptosis is an inducible suicide program that occurs in all phases of multicellular as well as in protozoa life and gains more and more importance in all medical disciplines. It is required for normal ontogenesis, organ and tissue remodeling, function of the immune system, prevention of inappropriate cellular proliferation and of survival of inappropriate mutations. Thereby apoptosis represents the key event which guarantees differentiation and maintenance of homeostasis. Terminal differentiation seems to be a special form of apoptosis. Dysregulated apoptosis is associated with various pathological conditions, including inflammation, and cancer. Acanthosis, the hallmark of psoriatic skin, is an example for diminished epidermal apoptosis. Defects in termination of inflammatory reactions occur in atopic dermatitis. Lupus erythematosus may arise due to disturbed apoptosis on several check points of the apoptosis cascade. Experimental evidence suggests a role for Bcl-2 and CD95L in the inhibition of programmed cell death in UV-induced skin cancer or malignant melanoma cells. Thus, it leads to survival of malignant cell clones. The slow growth of basal cell carcinomas is due to an increased apoptosis to mitosis ratio. Spontaneous regression of tumors is associated with increased apoptotic rates. Malignant melanoma cells characteristically show different anti-apoptotic strategies which underscore its aggressive behavior and its refractory towards classic therapeutic regimens. Additionally, induction of apoptosis in tumor infiltrating immune cells seems to be a strategy by which the tumor escapes from an immunological attack (tumor counter-attack). Since apoptosis is either absent or altered under pathological conditions therapeutic procedures should correct this. Established therapies like dithranol, vitanin-D3 analogs, low-dose methotrexate, induce apoptosis. Future treatment regimens like vaccine and gene therapy are designed to selectively induce apoptosis. Therefore, pharmacological agents and therapeutic strategies interfering with disrupted apoptosis regulation could improve the therapeutic arsenal in the future.

Bone disorders such as osteopenia and osteoporosis have been recently reported in patients infected with the human immunodeficiency virus (HIV), but their etiology remains still unknown. The prevalence estimates vary widely among the different studies and can be affected by concomitant factors such as the overlapping of other possible conditions inducing bone loss as lypodystrophy, advanced HIV-disease, advanced age, low body weight or concomitant use of other drugs. All the reports at the moment available in the literature showed a higher than expected prevalence of reduced bone mineral density (BMD) in HIV-infected subjects both naïve and receiving potent antiretroviral therapy compared to healthy controls. This controversial can suggest a double role played by both antiretroviral drugs and HIV itself due to immune activation and/or cytokines disregulation. An improved understanding of the pathogenesis of bone disorders can result in better preventative and therapeutic measures. However, the clinical relevance and the risk of fractures remains undefined in HIV-population. The clinical management of osteopenia and osteoporosis in HIV-infected subjects is still being evaluated. Addressing potential underlying bone disease risk factors (e.g., smoking and alcohol intake, use of corticosteroids, advanced age, low body weight), evaluating calcium and vitamin D intake, and performing dual x-ray absorptiometry in HIV-infected individuals who have risk factors for bone disease can be important strategies to prevent osteopenia and osteoporosis in this population. The administration of bisphosphonates (e.g., alendronate), with calcium and vitamin D supplementation, may be a reasonable and effective option to treat osteoporosis in these subjects.

Gastrointestinal malignancies account for about 20% of all cancers worldwide. It is widely accepted that cancer evolves through several stepwise morphological stages such as the adenomacarcinoma and hyperplastic polyp-serrated adenoma-carcinoma sequences in colorectal cancers, and the metaplasia-dysplasia-carcinoma sequences in esophageal and gastric cancers. The morphological progression is associated with the accumulation of multiple genetic and epigenetic events. It is now recognized that epigenetic silencing of gene expression by CpG island methylation is an important alternative mechanism of inactivating tumor suppressor genes. Inflammatory conditions of the gastrointestinal and pancreaticobiliary tracts and liver such as Barrett esophagus, Helicobacter pylori gastritis, inflammatory bowel disease and viral hepatitis, are associated with increased frequency of malignancies and CpG methylation. In addition, CpG methylation is present in aberrant crypt foci and pancreatic intraepithelial neoplasia that are considered putative precursors of colon and pancreatic carcinomas, respectively. Understanding of these early genetic and epigenetic changes allows for the discoveries of potential screening, monitoring and therapeutic strategies. Targeting of the epigenetic changes that occur before the development of frank malignancy offers a potential chemopreventive strategy.

Cell-surface receptor tyrosine kinases play pivotal roles in development, tissue repair, and normal cellular homeostasis. Aberrant expression or signaling patterns of these kinases has also been linked to the progression of a diversity of diseases, including cancer, atherosclerosis, asthma, and fibrosis. Two major families of receptor tyrosine kinases, the epidermal growth factor receptor (EGFR) and platelet-derived growth factor receptor (PDGFR) families, have received a great deal of attention as potential therapeutic targets for pulmonary diseases, as these receptors have been shown to play key roles in chronic tissue remodeling in asthma, bronchitis, and pulmonary fibrosis. The EGFR system on epithelial cells and underlying mesenchymal cells (fibroblasts, myofibroblasts, and smooth muscle cells) drives numerous phenotypic changes during the progression of these pulmonary diseases, including epithelial cell mucous cell metaplasia and mesenchymal cell hyperplasia, differentiation, and extracellular matrix production. The PDGFR system, located primarily on mesenchymal cells, transduces signals for cell survival, growth and chemotaxis. The variety of EGFR and PDGFR ligands produced by the airway epithelium or adjacent mesenchymal cells allows for intimate epithelial-mesenchymal cell communication. A full understanding of the complex mechanisms involving these receptors and ligands should lead to therapeutic strategies for the treatment of a wide range of fibroproliferative lung diseases.

Alzheimer's disease (AD) is characterized by the presence, in the brain of the patients, of two aberrant structures: intracellular neurofibrillary tangles (NFTs), containing an abnormal hyperphosphorylated form of tau protein, and extracellular senile plaques (SPs), mainly composed by fibrillar amyloid β peptide. Another feature of AD is the neurodegeneration and dysfunction of basal forebrain cholinergic system. A possible connection among those AD characteristics could occur. Thus, the purpose of this short review is to summarize the involvement of nicotinic (nAChR) and muscarinic (mAChR) receptors on tau phosphorylation, in a direct way, or through the previous interaction of some of these receptors with amyloid β. Several studies have demonstrated that nAChR activation results in a significantly increase of tau phosphorylation, whereas mAChR activation, may prevent tau phosphorylation.

This article intends to show how the cerebellum, a structure ordinarily not considered in mediating breathing or cardiovascular control, may play a critical role in compensatory responses particularly to hypoxic insults occurring pre and/or postnatally and thus may be involved in the sudden unexplained perinatal and infant death. Besides the ontogenesis of the cerebellar cortex in man, we reported alterations of biopathological features (neuronal immaturity, altered apoptotic programs, negative expression of somatostatin and EN2 gene, intense c-fos expression positivity, astrogliosis) in the cortex and in the dentate nucleus of the 63% of sudden deaths, and only in 10% of the controls. The correlation of these results with the mother's smoking habit was highly significant. Therefore, we support the hypothesis, already expressed in previous studies on brainstem, of a close relation between maternal cigarette smoking and a wide range of morpho-physiological defects of the brain, leading to unexplained sudden death in stillbirths, newborns, and Sudden Infant Death Syndrome (SIDS) victims.