Christopher C. Toner

Granulocyte-Macrophage Colony-Stimulating Factor Induces Activation and Restores Respiratory Burst Activity in Monocytes from Septic Patients

Monocyte activation in response to recombinant human granulocyte-macrophage colony-stimulating factor (GM-CSF) was examined in vitro in septic shock patients. These monocytes exhibited a greater respiratory burst activity than monocytes from healthy subjects; the response to secondary stimulation with bacterial stimuli was attenuated. GM-CSF restored the ability of monocytes to respond appropriately to secondary stimulation. Expression of certain integrin adhesion molecules, L-selectin, and Fcgamma receptors was increased on monocytes of septic shock patients; expression of CD11c was reduced. GM-CSF up-regulated integrin expression and decreased L-selectin, FcgammaRII, and FcgammaRIII expression. Septic patients exhibited greater biologic activity of monocyte tissue factor than did healthy subjects. Priming monocytes with GM-CSF accelerated tissue factor activation following stimulation with lipopolysaccharide and bacterial culture supernatant. Certain parameters of monocyte function may be restored by exposure to GM-CSF. This benefit may be offset by an increase in monocyte procoagulant activity.

Effects of metabolic alterations on dopamine release in an in vitro model of neostriatal ischaemia.

Release of neurotransmitters, including dopamine (DA), plays a central role in neuronal death during cerebral ischaemia. We investigated the effects of changes in energy demand and supply on DA release in cerebral ischaemia in vitro. Rat striatal slices were superfused (400 ml/h) with an artificial cerebrospinal fluid at 34 degrees C, unless otherwise stated. Ischaemia were mimicked by removal of O2 and reduction in glucose concentration from 4 to 2 mM. DA release was monitored by voltammetry. The profile of ischaemia-induced DA release was temperature-dependent. Hypothermia (to 24 degrees C) delayed, slowed, and reduced ischaemia-induced DA release relative to 34 degrees C. Pretreatment of the slices for 3 h with creatine (25 mM) delayed and slowed ischaemia-induced DA release. Conversely, blockade of Na+/K+ ATPase with ouabain induced an anoxic depolarisation and rapid DA release similar to ischaemia. In summary, the onset of DA release in this model is controlled by the balance between energy supply and utilisation. Strategies that increase availability of energy substrates for the membrane sodium pump (i.e., pre-incubation with creatine) or decrease their utilisation (hypothermia) slow and delay DA release. Hypothermia may owe part of its neuroprotective effect to a delay and slowing of ischaemia-induced release of DA and/or other neurotransmitters.

Characteristics of the NMDA receptor modulating hypoxia/hypoglycaemia-induced rat striatal dopamine release in vitro.

We investigated the functional characteristics of the NMDA receptor that modulates hypoxia/hypoglycaemia-induced striatal dopamine release. Dopamine release was detected by fast cyclic voltammetry in rat neostriatal slices. Four variables were measured: T(on) -- time from initiation of hypoxia/hypoglycaemia to the onset of dopamine release, Tpk -- time from onset to maximum, deltaDA/delta(t) -- rate of dopamine release and DAmax -- maximum extracellular dopamine concentration. In controls, T(on) = 164.9 +/- 1.7 s, Tpk = 20.9 +/- 0.9 s, deltaDA/delta(t) = 5.31 +/- 0.44 microM/s and DAmax = 79.1 +/- 2.5 microM (means +/- S.E.M., n = 203). Cis-4-(phosphonomethyl)piperidine-2-carboxylic acid (CGS 19755, 20 microM) lengthened, while N-methyl-D-aspartate (NMDA) (100 microM) shortened T(on). (5R,10S)-(+)-5-methyl-10,11-dihydro-5H-dibenzo[a,d]cyclohepten-5,1 0-imine hydrogen maleate (MK 801, 1 and 10 microM) and dextromethorphan (10 and 100 microM) increased Tpk and decreased DAmax. Neither glycine (100 microM), 7-chlorokynurenic acid (50 microM) nor 5-nitro-6,7-dichloro-1,4-dihydroquinoxaline-2,3-dione (ACEA 1021, 100 microM) had any effect although 7-chlorokynurenic acid blocked the effect of NMDA. Increasing [Mg2+] from 1.3 to 3.7 mM, increased Tpk and decreased deltaDA/delta(t). Dithiothreitol (1 mM) accelerated T(on) while 5.5-dithio-bis-(2-nitrobenzoic acid) (1 mM) delayed T(on). Neither drug affected Tpk, DAmax or deltaDA/delta(t). Neither spermidine (100 microM) nor arcaine (100 microM) affected T(on), Tpk or deltaDA/delta(t) although arcaine decreased DAmax. In conclusion, hypoxia/hypoglycaemia-induced dopamine release was influenced by an NMDA receptor although modulation of the glycine recognition site of the receptor was ineffective, as were agents acting at polyamine modulatory zones. These findings highlight differences between recombinant and native NMDA receptors and suggest caution in extrapolating molecular biology to functional studies.

Comparison of ketamine stereoisomers on tissue metabolic activity in an in vitro model of global cerebral ischaemia

Ketamine (2-o-chlorophenenyl-2-methylaminocyclohexanone hydrochloride) is a dissociative general anaesthetic with neuroprotective properties. Since ketamine is optically active, we compared the neuroprotective efficacy of the (+)- or (-)-enantiomers in global cerebral ischaemia. Rat corticostriatal slices superfused with, or incubated in, artificial CSF at 34 degrees C were subjected to a brief ischaemic insult. Dopamine efflux was measured using fast cyclic voltammetry. Tissue metabolism was determined with 2,3,5-triphenyltetrazolium chloride staining, a marker of mitochondrial enzyme activity. In control slices, ischaemia caused rapid striatal dopamine release (to 122 microM over 18 s) after an initial delay of 149s. Racemic ketamine (100 micromol/l) significantly delayed (by 24%, P<0.05), slowed (by 63%, P<0.01) and reduced (by 27%, P<0.05) ischaemia-induced dopamine release. Ischaemia (10 min) also caused significant decreases in striatal (25%, P<0.01) and cortical (31%, P<0.001) metabolic activity, manifested as a drop in mean TTC staining intensity. Racemic ketamine and its (+)- and (-)-enantiomers (each 100 microM) attenuated the loss of metabolic activity in the striatum. However, in the cortex, only (+)-ketamine (100 microM) was significantly neuroprotective. We conclude that neuroprotection by ketamine in cerebral ischaemia is both region- and isomer-dependent.

8 General anaesthetics as neuroprotective agents

Summary It is widely accepted by anaesthetists that depression of cerebral metabolism is the principal means of anaesthetic neuroprotection. However, the available literature provides little support for this hypothesis. First, the differing susceptibilities of various brain regions do not reflect the metabolic activity in these regions ( Mies et al, 1990 ). Second, isoflurane, which has EEG and CMR effects of similar magnitude to those seen with barbiturates, does not provide comparable neuroprotection ( Nehls et al, 1987 ). Finally, moderate hypothermia is more neuroprotective than barbiturates at dosages that provide greater depression of CMR ( Busto et al, 1987 ). The mechanism for such effects is unclear but may reflect attenuation of ischaemia-induced neurotransmitter release ( Busto et al, 1989; Toner and Stamford, 1995c ). Table 1 summarizes some of the known mechanisms of neuroprotective action of various general anaesthetics. The extent to which anaesthetic agents can delay anoxic depolarization simply by reducing CMR amounts to little more than 1–2 minutes during severe ischaemia. Once this depolarization has occurred, a whole sequence of biochemical events is set in motion involving ion channels, release of excitatory and inhibitory neurotransmitters, protein synthesis and free radical generation. Only recently have researchers turned their attention to these alternative mechanisms of anaesthetic neuroprotection.

The cerebral function monitor (CFM) is a useful addition to a bilateral carotid artery, vein graft model:

Following human coronary artery bypass surgery, vein graft occlusion is a major cause of morbidity and mortality. An agent is required which will reduce the incidence of early graft thrombosis without causing systemic bleeding. To assess the efficacy of such agents a suitable experimental vein-graft model is required. A porcine, unilateral saphenous vein-carotid artery bypass graft model has been described previously, although to assess the effect of locally applied anticoagulant drugs, insertion of grafts bilaterally would be advantageous, allowing treated and control grafts to be implanted in the same animal which would then act as its own control. Pigs are reported as having an excellent collateral cerebral circulation and hence in theory, would be suitable animals to use as a bilateral carotid vein-graft model. This paper describes the occurrence of serious neurological complications during the development of such a model and suggests that by using a cerebral function monitor, detection of critical reductions in cerebral perfusion can be made early and remedial action take.

Effect of intraluminal application of tissue-type plasminogen activator on the fibrinolytic activity of experimental vein grafts

OBJECTIVE The aim was to quantify the effect of intraluminally applied tissue-type plasminogen activator (tPA) on the fibrinolytic activity of experimental vein grafts and assess the effect of pretreatment of the vein on early platelet and thrombus formation using histological techniques. METHODS A pig model of bilateral saphenous venin-carotid artery grafts was used. In each animal one side of the neck was grafted using vein distended to 230 mm Hg and pretreated with tPA (1 mg.ml-1) for a period of 15 min before grafting (treated graft). The perfused in situ for 2 h after implantation and before analysis. Changes in local fibrinolytic activity were quantified using fibrin plate techniques and specific chromogenic assays for tPA and urokinase (uPA) in tissue extract (n = 6 animals). Histological assessment was made using light and scanning microscopy (n = 4 animals). RESULTS Surgical preparation and distention significantly reduced the fibrinolytic activity of pig saphenous vein in terms of areas of lysis produced on fibrin plates (P < 0.05), tPA activity (P < 0.05), and uPA activity (P < 0.05). Pretreatment of distended vein with tPA before grafting significantly enhanced its fibrinolytic activity after 2 h perfusion compared to control (untreated) grafts, as assessed by areas of lysis on fibrin plates (P < 0.05) and specific tPA activity (P < 0.05). Treated grafts also showed qualitatively less platelet and thrombus formation on histological examination. CONCLUSIONS Pretreatment of surgically harvested vein by intraluminal application of tPA before grafting enhances its fibrinolytic activity after exposure to 2 h perfusion in vivo. This technique requires further investigation to validate its potential as a means of providing local anticoagulation to veins implanted as arterial grafts thereby reducing the incidence of early graft thrombosis.