James J. Marsh

Fructose-bisphosphate aldolases: an evolutionary history

Two mechanistically distinct forms of fructose-bisphosphate aldolase are known to exist. It has been assumed that the Class II (metallo) aldolases are evolutionary more primitive than their Class I (Schiff-base) analogs since the latter had only been found in eukaryotes. With the identification of prokaryotic Class I aldolases, we present here an alternative scheme of aldolase evolution. This scheme proposes that both aldolase classes are evolutionarily ancient and rationalizes the observed highly variable expression of both enzyme types in contemporary file forms.

High prevalence of dysfibrinogenemia among patients with chronic thromboembolic pulmonary hypertension

The mechanism by which chronic thromboembolic pulmonary hypertension (CTEPH) develops after acute pulmonary thromboembolism is unknown. We previously reported that fibrin from CTEPH patients is relatively resistant to fibrinolysis in vitro. In the present study, we performed proteomic, genomic, and functional studies on fibrin(ogen) to investigate whether abnormal fibrin(ogen) might contribute to the pathogenesis of CTEPH. Reduced and denatured fibrinogen from 33 CTEPH patients was subjected to liquid chromatography-mass spectrometry analysis. Fibrinogen from 21 healthy controls was used to distinguish atypical from commonly occurring mass peaks. Atypical peaks were further investigated by targeted genomic DNA sequencing. Five fibrinogen variants with corresponding heterozygous gene mutations (dysfibrinogenemias) were observed in 5 of 33 CTEPH patients: Bbeta P235L/gamma R375W, Bbeta P235L/gamma Y114H, Bbeta P235L, Aalpha L69H, and Aalpha R554H (fibrinogens(San Diego I-V)). Bbeta P235L was found in 3 unrelated CTEPH patients. Functional analysis disclosed abnormalities in fibrin polymer structure and/or lysis with all CTEPH-associated mutations. These results suggest that, in some patients, differences in the molecular structure of fibrin may be implicated in the development of CTEPH after acute thromboembolism.

Endogenous fibrinolytic system in chronic large-vessel thromboembolic pulmonary hypertension.

BackgroundChronic thromboembolic pulmonary hypertension (CTEPH) is a disorder characterized by pulmonary arterial hypertension as a consequence of organized thrombotic material in the central pulmonary arteries. Incomplete resolution of acute pulmonary emboli is believed to be pathogenically important; however, the mechanism for poor thrombus dissolution remains to be explained. We undertook this study to assess the major determinants of plasma fibrinolysis in patients with CTEPH (n = 32) Methods and ResultsImmunological and functional levels of tissue-type plasminogen activator (t-PA) and type 1 plasminogen activator inhibitor (PAI-1) were quantified in platelet-poor plasma (PPP) from patients with CTEPH as well as age-matched controls. Although basal PPP t-PA antigen levels (CTEPH mean, 29.5 ng/ml; control mean, 2.7 ng/ml) and PAI-1 antigen levels (CTEPH mean, 55.8 ng/ml; control mean, 21.0 ng/ml) were higher in the CTEPH group, no between-group differences were detected in the enzymatic activities of these two molecules. The CTEPH group demonstrated a greater rise in t-PA antigen (CTEPH mean rise, 53.0 ng/ml; control mean rise, 5.6 ng/ml) and PA activity (CTEPH mean rise, 10.5 IU/ml; control mean rise, 1.2 IU/ml) than controls in response to an experimentally induced venous occlusion. Immunoprecipitation and fibrin autography of PPP from two patients with markedly elevated basal t-PA antigen levels demonstrate that the t-PA antigen was present in PPP primarily in complex with PAI-1. ConclusionsAlthough abnormalities of the fibrinolytic system were detected, neither a high resting plasma PAI-1 activity nor a blunted response of t-PA to venous occlusion can be invoked as an etiology for CTEPH.

Parallel analysis of tissue-type plasminogen activator and type 1 plasminogen activator inhibitor in plasma and endothelial cells derived from patients with chronic pulmonary thromboemboli.

BackgroundChronic thromboembolic pulmonary hyper-tension is the result of nonresolving pulmonary emboli that lead to chronic obstruction of the central pulmonary arteries. Methods and ResultsTo determine if the failure to lyse pulmonary thromboemboli is caused by an abnormality in the endothelial cell (EC)-associated fibrinolytic system, conditions were established to culture ECs from patient main pulmonary arteries during surgical pulmonary thromboendarterectomies and to analyze the conditioned media for levels of tissue-type plasminogen activator (TPA) and type 1 plasminogen activator inhibitor (PAI-1). Our data indicate that the levels of TPA antigen and PAI-1 activity in media conditioned by primary ECs harvested from areas free of thrombus were not significantly different between patients with chronic thromboemboli and organ donors. In 13 consecutive patients, no correlation was obtained in either the TPA antigen or PAI-1 activity level in a patients plasma and the respective levels in media conditioned by the patients pulmonary ECs. Moreover, patient pulmonary arterial ECs were observed to increase the secretion of TPA and PAI-1 in response to thrombin in a fashion similar to donor pulmonary artery ECs. ConclusionsThe data suggest that an inherent EC-mediated fibrinolytic imbalance is not a generalized phenomenon observed in pulmonary arteries of patients with chronic pulmonary thromboemboli.

PULMONARY VASCULAR REMODELING DISTAL TO PULMONARY ARTERY LIGATION IS ACCOMPANIED BY UPREGULATION OF ENDOTHELIN RECEPTORS AND NITRIC OXIDE SYNTHASE

There is increasing evidence that the pathogenesis and progression of many forms of pulmonary vasculopathy are related to abnormalities in endothelial mediators, including endothelin-1 (ET-1) and nitric oxide (NO). Using a rat model of chronic unilateral pulmonary artery ligation, we investigated the role of ET-1 and NO in postobstructive pulmonary vasculopathy (POPV). Eight months after a left thoracotomy with either left main pulmonary artery ligation (ligated group) or no ligation (sham group), rat lungs, including those contralateral to the ligation (hyperperfused group), were fixed and mounted for histologic sectioning. Morphometric measurements were carried out by computer-assisted image analysis and immunohistochemical staining was performed using specific antibodies against ET-1, ETA, and EBB receptors, and endothelial NO synthase (eNOS). Compared to sham lungs, the ligated lungs showed (1) an increase in muscular, adventitial, and intimal thickness of pulmonary artery; (2) increase in external diameter of the bronchial artery (39.8 +/- 2.2 microns vs. 16.8 +/- 0.9 microns in sham group; P < .005) and number of bronchial arteries per bronchiole (3.21 +/- mu 0.26 vs. 1.86 +/- mu 0.21 in sham group; P < .001); and (3) increase in the intensity of eNOS and ETA, B receptor immunoreactivity. No morphometric or immunohistochemical differences were observed between the hyperperfused and sham lungs. These findings suggest that increased synthesis of endothelial NO may serve as a compensatory mediator in ET-1-mediated vascular remodeling.There is increasing evidence that the pathogenesis and progression of many forms of pulmonary vasculopathy are related to abnormalities in endothelial mediators, including endothelin-1 (ET-1) and nitric oxide (NO). Using a rat model of chronic unilateral pulmonary artery ligation, we investigated the role of ET-1 and NO in postobstructive pulmonary vasculopathy (POPV). Eight months after a left thoracotomy with either left main pulmonary artery ligation (ligated group) or no ligation (sham group), rat lungs, including those contralateral to the ligation (hyperperfused group), were fixed and mounted for histologic sectioning. Morphometric measurements were carried out by computer-assisted image analysis and immunohistochemical staining was performed using specific antibodies against ET-1, ETA, and EBB receptors, and endothelial NO synthase (eNOS). Compared to sham lungs, the ligated lungs showed (1) an increase in muscular, adventitial, and intimal thickness of pulmonary artery; (2) increase in external diameter of the bronchial artery (39.8+/-2.2 mum vs.16.8+/-0.9 mum in sham group; P <. 005) and number of bronchial arteries per bronchiole (3.21+/-mu0.26vs.1.86+/-mu0.21 in sham group; P <. 001); and (3) increase in the intensity of eNOS and ETA, B receptor immunoreactivity. No morphometric or immunohistochemical differences were observed between the hyperperfused and sham lungs. These ndings suggest that increased synthesis of endothelial NO may serve as a compensatory mediator in ET-1 mediated vascular remodeling.

Chronic pulmonary thromboembolism in dogs treated with tranexamic acid.

BackgroundMany questions remain regarding the pathogenesis, natural history, diagnosis, and treatment of chronic thromboembolic pulmonary hypertension in patients. To answer such questions, we developed an animal model of this disorder. The brisk thrombolytic response of canines to acute embolism has, previously, prevented the establishment of such a model. Methods and ResultsThe fibrinolytic inhibitor tranexamic acid was given orally to canines before, and for intervals after, pulmonary emboli were released from venous thrombi formed in vivo in femoral veins or the inferior vena cava. Preliminary studies disclosed that embolic residuals from femoral vein thrombi were not sufficient to cause significant, persistent pulmonary hypertension. With repetitive, larger thrombi embolized from the inferior vena cava, however, persistent pulmonary hypertension was achieved in most animals. ConclusionsResolution of emboli in the canine can be inhibited by tranexamic acid. As in humans, a spectrum of embolic residuals is encountered, and the perfusion lung scan consistently underestimates the extent of embolic residuals. Studies of this animal model continue.

Factors contributing to increased vascular fibrinolytic activity in mongrel dogs.

BackgroundNumerous investigators have observed that pulmonary emboli are rapidly lysed in a canine model system. This study was undertaken to delineate the unique mechanism that accounts for the rapid dissolution of pulmonary emboli in mongrel dogs Methods and ResultsCanine plasminogen activator (PA) activity (2.6±1.1 IU/mL acidified platelet-poor plasma [PPP], <0.3 IU/mL acidified whole blood serum [WBSJ, mean±SD; n=6) and PA inhibitor activity (6.1±2.6 U/mL PPP, 35.4±7.8 U/mL WBS; n=6) were determined in standard plasminogen-based chromogenic assays. Analysis of canine PPP, WBS, platelet lysates, and primary canine endothelial cell (EC) cultures by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and fibrin autography revealed a plasminogen-dependent lytic zone at 45-kd relative molecular mass that was shown to be related to urokinase-type PA (u-PA) by its selective inhibition through amiloride. Analysis of canine platelets on standard 125I fibrin plate assays revealed a net fibrinolytic activity. In a clot lysis assay system, canine platelets were able to stimulate fibrinolysis when layered on the outside of fibrin clots containing autologous PPP. Moreover, net fibrinolytic activity of primary canine pulmonary artery endothelial cells was higher than the activities expressed by canine aortic or carotid artery endothelial cells. ConclusionRapid lysis of pulmonary emboli in mongrel dogs appears to be a result of 1) the high u-PA activity in canine PPP and 2) the predominant association of u-PA activity with canine platelets and canine pulmonary artery endothelial cells. (Circulation 1993;87:1990-2000)

Suppression of thrombolysis in a canine model of pulmonary embolism.

BackgroundThe brisk fibrinolytic response of canines has impaired efforts to develop a canine model of chronic thromboembolic pulmonary hypertension. Difficulties in retaining chronic embolic residuals were partially overcome by administration of tranexamic acid (TXA) (Circulation. 1991;83:1272–1279.). In this study, we used type 1 plasminogen activator inhibitor (PAI-1), a major inhibitor of the endogenous fibrinolytic system, to determine its efficacy in the suppression of thrombolysis in canines. Methods and ResultsThrombus was induced in the inferior vena cava of anesthetized mongrel dogs with thrombin and a special double-balloon catheter; 2 hours later, the thrombus was embolized. In one group of dogs, activated type 1 plasminogen activator inhibitor (PAI-1) (130 μg) was delivered directly into the forming thrombus; in another, TXA (110 mg/kg) was given intravenously before thrombus formation; in controls, thrombus was induced without inhibitors. Cross-linked fibrin degradation product (D-dimer) appeared in the blood of control animals within 1 hour of thrombus induction (176 ± 62.5 versus 1.02 ± 0.39 ng/mL baseline; mean ± SEM), was maximal by 4 hours (413 ± 110 ng/mL) and remained elevated at 24 hours (90.8 ± 19.5 ng/mL). Compared with controls, PAI- 1 and TXA suppressed D-dimer release by 80% and 85%, respectively, over the first 24 hours. One week later, animals were killed, and residual emboli were harvested. Perfusion scan defects persisted in all animals at this time, but there were no scan defect differences among groups. However, emboli recovered from animals receiving PAI-1 still harbored immunoreactive PAI-1 and were, on average, more than twofold greater in mass (393 ± 56 mg) than emboli recovered from either controls (183 ± 76 mg) or animals receiving TXA (180 ± 80 mg). ConclusionsIntravenous TXA and intrathrombus PAI-1 effectively suppress thrombolysis for 24 hours in canines. Thromboemboli enriched with PAI-1 appear to resist lysis for longer periods of time (up to 1 week). These findings are consistent with the hypothesis that PAI-1 remains associated with the embolus, where it continues to inhibit lysis, whereas TXA eventually diffuses out of the embolus, allowing lysis to ensue.

Efficacy of Methylprednisolone in Preventing Lung Injury Following Pulmonary Thromboendarterectomy

BACKGROUND We sought to determine the efficacy and safety of perioperative treatment with methylprednisolone on the development of lung injury after pulmonary thromboendarterectomy. METHODS This was a randomized, prospective, double-blind, placebo-controlled study of 98 adult patients with chronic thromboembolic pulmonary hypertension who were undergoing pulmonary thromboendarterectomy at a single institution. The patients received either placebo (n = 47) or methylprednisolone (n = 51) (30 mg/kg in the cardiopulmonary bypass prime, 500 mg IV bolus following the final circulatory arrest, and 250 mg IV bolus 36 h after surgery). The primary end point was the presence of lung injury as determined by two independent, blinded physicians using prospectively defined criteria. The secondary end points included ventilator-free, ICU-free, and hospital-free days and selected levels of cytokines in the blood and in BAL fluid. RESULTS The incidence of lung injury was similar in both treatment groups (45% placebo, 41% steroid; P = .72). There were no statistical differences in the secondary clinical end points between treatment groups. Treatment with methylprednisolone, compared with placebo, was associated with a statistically significant reduction in plasma IL-6 and IL-8, a significant increase in plasma IL-10, and a significant reduction in postoperative IL-1ra and IL-6, but not IL-8 in BAL fluid obtained 1 day after surgery. CONCLUSIONS Perioperative methylprednisolone does not reduce the incidence of lung injury following pulmonary thromboendarterectomy surgery despite having an antiinflammatory effect on plasma and lavage cytokine levels.

Pilot study comparing SPECT perfusion scintigraphy with CT pulmonary angiography in chronic thromboembolic pulmonary hypertension.

Background and objective:  The management of chronic thromboembolic pulmonary hypertension (CTEPH) is dependent on the extent of pulmonary artery obstruction, which is usually evaluated by planar perfusion scanning and CT pulmonary angiography (CTPA). We previously reported that SPECT perfusion scanning is more sensitive than planar scanning for detecting vascular obstruction in CTEPH. The purpose of this study is to compare SPECT with CTPA for detecting segmental pulmonary artery obstruction in CTEPH.