Recent Publications by CFE Educators

Recent Published articles, books, and other scholarship by Academy members, CFE Education Scientists, and CFE Faculty.
Presynaptic regulation of spinal cord tachykinin signaling via GABA(B) but not GABA(A) receptor activation.
2001
Authors: Riley RC, Trafton JA, Chi SI, Basbaum AI
Internalization of spinal cord neurokinin-1 receptors following noxious stimulation provides a reliable measure of tachykinin signaling. In the present study, we examined the contribution of GABAergic mechanisms to the control of nociceptor processing involving tachykinins. Spinal administration of the GABA(B) receptor agonist R(+)-baclofen in the rat, at antinociceptive doses, significantly reduced the magnitude of neurokinin-1 receptor internalization in neurons of lamina I in response to acute noxious mechanical or thermal stimulation. By contrast, administration of even high doses of the GABA(A) receptor agonists, muscimol or isoguvacine, were without effect. CGP55845, a selective GABA(B) receptor antagonist, completely blocked the effects of baclofen, but failed to increase the incidence of internalization when administered alone. These results provide evidence for a presynaptic control of nociceptive primary afferent neurons by GABA(B) but not GABA(A) receptors in the superficial laminae of the spinal cord, limiting tachykinin release. Because CGP5584 alone did not increase the magnitude of neurokinin-1 receptor internalization observed following noxious stimulation, there appears to be little endogenous activation of GABA(B) receptors on tachykinin-releasing nociceptors under acute stimulus conditions. The contribution of pre- and postsynaptic regulatory mechanisms to GABA(B) receptor-mediated antinociception was also investigated by comparing the effect of baclofen on Fos expression evoked by noxious stimulation to that induced by intrathecal injection of substance P. In both instances, baclofen reduced Fos expression not only in neurons that express the neurokinin-1 receptor, but also in neurons that do not. We conclude that baclofen acts at presynaptic sites to reduce transmitter release from small-diameter nociceptive afferents. Presynaptic actions on non-tachykinin-containing nociceptors could similarly account for the reduction by baclofen of noxious stimulus-induced Fos expression in neurokinin-1 receptor-negative neurons. However, the inhibition of Fos expression induced by exogenous substance P indicates that actions at sites postsynaptic to tachykinin- and/or non-tachykinin-containing primary afferent terminals must also contribute to the antinociceptive actions of GABA(B) receptor agonists.
View on PubMedClin Pharmacol Ther
2001
Authors: L Mancinelli, L Frassetto, LC Floren, D Dressler, S Carrier, I Bekersky, LZ Benet, U Christians.
Postsynaptic signaling via the [mu]-opioid receptor: responses of dorsal horn neurons to exogenous opioids and noxious stimulation.
2000
Authors: Trafton JA, Abbadie C, Marek K, Basbaum AI
Although both pre- and postsynaptic mechanisms have been implicated in the analgesia produced by mu-opioids at the spinal cord, it is not known under what conditions these different controls come into play. Because the mu-opioid receptor (MOR) can be visualized in individual lamina II excitatory interneurons and internalizes into endosomes on ligand binding, we tested whether MOR internalization could be monitored and used to measure postsynaptic MOR signaling. To test whether endogenous opioids modulate these lamina II interneurons during noxious stimulation, we next assessed the magnitude of postsynaptic MOR internalization under a variety of nociceptive conditions. As observed in other systems, we show that MOR internalization in dorsal horn interneurons is demonstrated readily in response to opioid ligands. The MOR internalization is dose-dependent, with a similar dose-response to that observed for opioid-induced increases in potassium conductance. We demonstrate that MOR internalization in lamina II neurons correlates precisely with the extent of analgesia produced by intrathecal DAMGO. These results suggest that MOR internalization provides a good marker of MOR signaling in the spinal cord and that postsynaptic MORs on lamina II interneurons likely participate in the analgesia that is produced by exogenous opioids. We found, however, that noxious stimuli, under normal or inflammatory conditions, did not induce MOR internalization. Thus, endogenous enkephalins and endomorphins, thought to be released during noxious peripheral stimuli, do not modulate nociceptive messages via postsynaptic MORs on lamina II interneurons. We suggest that any endogenous opioids that are released by noxious stimuli target presynaptic MORs or delta-opioid receptors.
View on PubMedNoninvasive diagnostic testing of coronary artery disease in women.
2000
Authors: Chen G, Redberg RF
Culture specific implications for decline in ADL and IADL.
2000
Authors: Yukawa M, McCormick WC
A scientific overview of the development of AIDS vaccines.
2000
Authors: Little K, Surjadi M
This article explores the development of AIDS vaccines. It briefly describes the differences between cellular and humoral immune systems and their role in HIV disease. It also considers the use of animal models in vaccine research to simulate human immune system responses to HIV. In addition, various vaccine strategies are explained. These strategies include live attenuated vaccines, subunit vaccines, live vector-based vaccines, DNA vaccines, pseudovirions, whole inactivated virus, and combination products. Advantages and disadvantages for each strategy will be described as well as the current state of progress in vaccine development. The purpose of this article is to educate nurses and other health care providers about the recent developments in vaccine technology as well as to encourage all health care providers to advocate for increased research and development of HIV-1 vaccines.
View on PubMedAcute interstitial pneumonitis. Case series and review of the literature.
2000
Authors: Vourlekis JS, Brown KK, Cool CD, Young DA, Cherniack RM, King TE, Schwarz MI
Acute interstitial pneumonitis (AIP) is an acute, idiopathic interstitial lung disease characterized by rapidly progressive diffuse pulmonary infiltrates and hypoxemia requiring hospitalization. The case-fatality ratio is high. Previous reports suggested that survivors of the acute event have a favorable outcome. We undertook this study to examine the natural history of survivors. We had observed several patients who experienced recurrent episodes of AIP and chronic progressive interstitial lung disease. We sought to determine longitudinal survival in these patients and to compare our experience with that in the medical literature. Overall, we identified 13 biopsy-proven cases of AIP. The mean patient age was 54 years in our review, which is identical to previous reports. Twelve patients were hospitalized and all 12 required mechanical ventilation. Overall hospital survival was 67%. All patients demonstrated abnormalities in gas exchange at presentation. Radiographs typically demonstrated bilateral patchy densities that progressed to a diffuse alveolar filling pattern in nearly all cases. All biopsy specimens showed organizing diffuse alveolar damage. Longitudinal data were available for 7 patients. Two died of AIP recurrences. A third died of complications of heart failure shortly after hospital discharge. One patient progressed to end-stage lung disease and required lung transplantation. Two patients experienced persistent pulmonary symptoms, accompanied in 1 by progressive lung fibrosis. One patient had nearly complete recovery of lung function 2 years following AIP. (Follow-up information was unavailable for 2 survivors.) In our literature review, 5 of 7 patients reported experienced some recovery of lung function. One case of progressive interstitial lung disease requiring lung transplantation was reported. The reported mortality was much higher than in our experience (74% versus 33%). The mean time from symptom onset to death was 26 days, compared with 34 days in our experience. The use of corticosteroids did not appear to influence survival, although this has not been tested in a rigorous manner. The better survival in our series may be related in part to a survivor selection bias. In contrast to previous reports, we found that survivors of AIP may experience recurrences and chronic, progressive interstitial lung disease. We did not identify any clinical or pathologic features that predict mortality in these patients. Likewise, there were no features that predicted the longitudinal course in survivors. Further study to identify causal factors is required in the hope of preventing morbidity and mortality related to this disease.
View on PubMedRisks and benefits of structured antiretroviral drug therapy interruptions in HIV-1 infection.
2000
Authors: Bonhoeffer S, Rembiszewski M, Ortiz GM, Nixon DF
BACKGROUND
Structured interruptions of antiretroviral therapy of HIV-1 infected individuals are currently being tested in clinical trials to study the effect interruptions have on the immune responses and control of virus replication.
OBJECTIVE
To investigate the potential risks and benefits of interrupted therapy using standard population dynamical models of HIV replication kinetics.
METHODS
Standard population dynamical models were used to study the effect of structured therapy interruptions on the immune effector cells, the latent cell compartment and the emergence of drug resistance.
CONCLUSIONS
The models suggest that structured therapy interruption only leads to transient or sustained virus control if the immune effector cells increase during therapy. This increase must more than counterbalance the increase in susceptible target cells induced by therapy. The risk of inducing drug resistance by therapy interruptions or the risk of repopulating the pool of latent cells during drug-free periods may be small if the virus population remains at levels considerably below baseline. However, if the virus load increases during drug-free periods to levels similar to or higher than baseline before therapy, both these risks increase dramatically.
View on PubMedProtein kinase C zeta plays a central role in activation of the p42/44 mitogen-activated protein kinase by endotoxin in alveolar macrophages.
2000
Authors: Monick MM, Carter AB, Flaherty DM, Peterson MW, Hunninghake GW
Brainstem noradrenergic control of nociception is abnormal in the spontaneously hypertensive rat.
2000
Authors: Taylor BK, Roderick RE, Basbaum AI
Nociceptive processing is altered in individuals with inherited hypertension. Because brainstem noradrenergic (NA) neurons have been implicated in both nociceptive transmission and hypertension, we compared behavioral and cardiovascular indices of pain in spontaneously hypertensive rats (SHR) and their normotensive Wistar-Kyoto controls (WKY) after intracerebroventricular administration of an anti-DbetaH-saporin immunotoxin. In WKY rats, NA lesions decreased indices of persistent pain in the formalin test, but did not change nociceptive responses in multiple models of acute pain. In SHR rats, NA lesions did not alter persistent nociception, but decreased thresholds in the hotplate test. We conclude that coeruleospinal inhibitory pathways modulate hypoalgesia but not hyperalgesia in the SHR rat. Brainstem noradrenergic inhibition of acute nociception in the hotplate test is enhanced in the SHR rat, but brainstem noradrenergic contribution to persistent nociceptive processing in the formalin test is reduced in the SHR rat.
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