Sigma receptors [σRs]: biology in normal and diseased states.

This review compares the biological and physiological function of Sigma receptors [σRs] and their potential therapeutic roles. Sigma receptors are widespread in the central nervous system and across multiple peripheral tissues. σRs consist of sigma receptor one (σ1R) and sigma receptor two (σ2R) and are expressed in numerous regions of the brain. The sigma receptor was originally proposed as a subtype of opioid receptors and was suggested to contribute to the delusions and psychoses induced by benzomorphans such as SKF-10047 and pentazocine. Later studies confirmed that σRs are non-opioid receptors (not an µ opioid receptor) and play a more diverse role in intracellular signaling, apoptosis and metabolic regulation. σ1Rs are intracellular receptors acting as chaperone proteins that modulate Ca2+ signaling through the IP3 receptor. They dynamically translocate inside cells, hence are transmembrane proteins. The σ1R receptor, at the mitochondrial-associated endoplasmic reticulum membrane, is responsible for mitochondrial metabolic regulation and promotes mitochondrial energy depletion and apoptosis. Studies have demonstrated that they play a role as a modulator of ion channels (K+ channels; N-methyl-d-aspartate receptors [NMDAR]; inositol 1,3,5 triphosphate receptors) and regulate lipid transport and metabolism, neuritogenesis, cellular differentiation and myelination in the brain. σ1R modulation of Ca2+ release, modulation of cardiac myocyte contractility and may have links to G-proteins. It has been proposed that σ1Rs are intracellular signal transduction amplifiers. This review of the literature examines the mechanism of action of the σRs, their interaction with neurotransmitters, pharmacology, location and adverse effects mediated through them.

Regulatory issues concerning the safety, efficacy and quality of herbal remedies.

Herbal remedies and alternative medicines are used throughout the world, and in the past herbs were often the original sources of most drugs. Today we are witnessing an increase in herbal remedy use throughout the Western world raising the question as to how safe are these preparations for the unborn fetus? Many women use herbal products during pregnancy. The dilemma facing most regulatory authorities is that the public considers these products as either traditional medicines or natural food supplements. The user sees no reason for regulation. Most countries have laws concerning foods, drugs, and cosmetics, the details of which seldom clearly define to what section of the law and regulations alternative remedies belong. In most countries alternative remedies are regulated as foods, provided that no medicinal claim is made on the label. The global regulatory sector, however, is changing rapidly. The Therapeutic Goods Administration (TGA) in Australia created a Complimentary Medicines Evaluation Committee in late 1997 to address this issue, and Canada has created a new Natural Health Products Directorate in the realigned Therapeutic Products and Foods Branch in 2000. In parallel, the European Agency for the Evaluation of Medicinal Products has drafted test procedures and acceptance criteria for herbal drug preparations and herbal medicinal products. In the US, the Food and Drug Administration classifies these natural products as dietary supplements. Manufacturers must label a dietary supplement thus: "this statement has not been evaluated by the FDA [, and] this product is not intended to diagnose, treat, cure or prevent any disease." Whether these products are foods or drugs is undecided. To add complexity to this issue, most of the potential deleterious effects of natural products on the unborn may be related to hormonal effects (e.g., phytoestrogens) and nutriceutical drug interactions (e.g., St. John's Wort and antidepressants), rather than direct embryotoxicity per se. We suggest that ensuring quality of herbal products should receive immediate attention by regulatory authorities, before embarking on the more arduous tasks of safety and efficacy.