thyronamine and Stroke

Thyronamines (TAMs) are a newly identified class of endogenous signaling compounds. Their structure is identical to that of thyroid hormone and deiodinated thyroid hormone derivatives, except that TAMs do not possess a carboxylate group. Despite some initial publications dating back to the 1950s, TAMs did not develop into an independent area of research until 2004, when they were rediscovered as potential ligands to a class of G protein-coupled receptors called trace-amine associated receptors. Since this discovery, two representatives of TAMs, namely 3-iodothyronamine (3-T(1)AM) and thyronamine (T(0)AM), have been detected in vivo. Intraperitoneal or central injection of 3-T(1)AM or T(0)AM into mice, rats, or Djungarian hamsters caused various prompt effects, such as metabolic depression, hypothermia, negative chronotropy, negative inotropy, hyperglycemia, reduction of the respiratory quotient, ketonuria, and reduction of fat mass. Although their physiological function remains elusive, 3-T(1)AM and T(0)AM have already revealed promising therapeutic potential because they represent the only endogenous compounds inducing hypothermia as a prophylactic or acute treatment of stroke and might thus be expected to cause fewer side effects than synthetic compounds. This review article summarizes the still somewhat scattered data on TAMs obtained both recently and more than 20 yr ago to yield a complete and updated picture of the current state of TAM research.

Topics: Adiposity; Animals; Cricetinae; Heart Rate; Humans; Hyperglycemia; Hypothermia; Ketosis; Male; Mice; Rats; Receptors, G-Protein-Coupled; Receptors, Thyroid Hormone; Signal Transduction; Stroke; Thyronines

Mild hypothermia confers profound neuroprotection in ischemia. We recently discovered 2 natural derivatives of thyroxine, 3-iodothyronamine (T(1)AM) and thyronamine (T(0)AM), that when administered to rodents lower body temperature for several hours without induction of a compensatory homeostatic response. We tested whether T(1)AM- and T(0)AM-induced hypothermia protects against brain injury from experimental stroke.. We tested T(1)AM and T(0)AM 1 hour after and 2 days before stroke in a mouse model of focal ischemia. To determine whether T(1)AM and T(0)AM require hypothermia to protect against stroke injury, the induction of hypothermia was prevented.. T(1)AM and T(0)AM administration reduced body temperature from 37 degrees C to 31 degrees C. Mice given T(1)AM or T(0)AM after the ischemic period had significantly smaller infarcts compared with controls. Mice preconditioned with T(1)AM before ischemia displayed significantly smaller infarcts compared with controls. Pre- and postischemia treatments required the induction of hypothermia. T(1)AM and T(0)AM treatment in vitro failed to confer neuroprotection against ischemia.. T(1)AM and T(0)AM, are potent neuroprotectants in acute stroke and T(1)AM can be used as antecedent treatment to induce neuroprotection against subsequent ischemia. Hypothermia induced by T(1)AM and T(0)AM may underlie neuroprotection. T(1)AM and T(0)AM offer promise as treatments for brain injury.

Topics: Animals; Behavior, Animal; Body Temperature; Brain Ischemia; Cells, Cultured; Humans; Hypothermia; Ischemic Preconditioning; Male; Mice; Mice, Inbred C57BL; Molecular Structure; Neurons; Neuroprotective Agents; Stroke; Thyronines; Thyroxine