Advances in pharmacology
-
Advances in pharmacology · Jan 2006
ReviewThe role of GABA in the mediation and perception of pain.
A great deal of effort has been expended in attempting to define the role of GABA in mediating the transmission and perception of pain. Pursuit of this question has been stimulated by the fact that GABAergic neurons are widely distributed throughout the central nervous system, including regions of the spinal cord dorsal horn known to be important for transmitting pain impulses to the brain. In addition, GABA neurons and receptors are found in supraspinal sites known to coordinate the perception and response to painful stimuli and this neurotransmitter system has been shown to regulate control of sensory information processing in the spinal cord. ⋯ The results of anatomical, biochemical, molecular, and pharmacological studies support the notion that generalized activation of GABA receptor systems dampens the response to painful stimuli. The data leave little doubt that, under certain circumstances, stimulation of neuroanatomically discreet GABA receptor sites could be of benefit in the management of pain. Continued research in this area is warranted given the limited choices, and clinical difficulties, associated with conventional analgesics.
-
This chapter describes a physiological and profound effect of amylin to inhibit meal-related glucagon secretion. Glucagon is processed from a large precursor, proglucagon, in a tissue-specific manner in pancreatic alpha-cells. In addition to amino acid nutrient stimuli, glucagon is also secreted in response to stressful stimuli, such as hypoglycemia and hypovolemia. ⋯ Clinical studies have typically employed the amylinomimetic agent pramlintide. Studies of amylinomimetic effects on glucagon secretion include effects of rat amylin in anesthetized non-diabetic rats (Jodka et al., 2000; Parkes et al., 1999; Young et al., 1995), effects of rat amylin in isolated perfused rat pancreas (Silvestre et al., 1999), effects of pramlintide in anesthetized non-diabetic rats (Gedulin et al., 1997b,c,d, 1998), effects of pramlintide in patients with type l diabetes (Fineman et al., 1997a,b,c,d, 1998a; Holst, 1997; Nyholm et al., 1996, 1997a,b,c; Orskov et al., 1999; Thompson and Kolterman, 1997), and effects in patients with type 2 diabetes (Fineman et al., 1998b). In addition, effects of amylin antagonists have been observed in isolated preparations (Silvestre et al., 1996), and effects of antagonists or neutralizing antibody have been determined in whole-animal preparations (Gedulin et al., 1997a,e,f).
-
Advances in pharmacology · Jan 1997
ReviewColorectal cancer and nonsteroidal anti-inflammatory drugs.
The authors have presented a concise review of the studies which evaluate the risk of colorectal cancer among NSAID users. Animals studies have clearly documented a protective effect of NSAIDs in preventing colon cancers in a carcinogen-induced (AOM) model. NSAIDs are protective in the animal model, even if given 14 weeks after administration of the carcinogen, indicating that they must be playing a role very early in the adenoma-to-carcinoma sequence of events. ⋯ The authors and others have demonstrated that COX-2 is upregulated from 2- to 50-fold in 85-90% of colorectal adenocarcinomas, which makes the COX-2 enzyme a possible target. Drugs are currently under development at several pharmaceutical companies that preferentially inhibit either COX-2 or COX-2. If COX-2 is found to be a relevant target in the prevention of colorectal cancer, then these newly developed, more selective NSAIDs may play a role in future chemoprevention strategies.