Gundeep Dhillon

Regulatory T Cells Limit Vascular Endothelial Injury and Prevent Pulmonary Hypertension

Rationale: Pulmonary arterial hypertension (PAH) is an incurable disease associated with viral infections and connective tissue diseases. The relationship between inflammation and disease pathogenesis in these disorders remains poorly understood. Objective: To determine whether immune dysregulation due to absent T-cell populations directly contributes to the development of PAH. Methods and Results: Vascular endothelial growth factor receptor 2 (VEGFR2) blockade induced significant pulmonary endothelial apoptosis in T-cell-deficient rats but not in immune-reconstituted (IR) rats. T cell–lymphopenia in association with VEGFR2 blockade resulted in periarteriolar inflammation with macrophages, and B cells even prior to vascular remodeling and elevated pulmonary pressures. IR prevented early inflammation and attenuated PAH development. IR with either CD8 T cells alone or with CD4-depleted spleen cells was ineffective in preventing PAH, whereas CD4-depleting immunocompetent euthymic animals increased PAH susceptibility. IR with either CD4+CD25hi or CD4+CD25− T cell subsets prior to vascular injury attenuated the development of PAH. IR limited perivascular inflammation and endothelial apoptosis in rat lungs in association with increased FoxP3+, IL-10- and TGF-&bgr;-expressing CD4 cells, and upregulation of pulmonary bone morphogenetic protein receptor type 2 (BMPR2)–expressing cells, a receptor that activates endothelial cell survival pathways. Conclusions: PAH may arise when regulatory T-cell (Treg) activity fails to control endothelial injury. These studies suggest that regulatory T cells normally function to limit vascular injury and may protect against the development of PAH.

Blocking Macrophage Leukotriene B4 Prevents Endothelial Injury and Reverses Pulmonary Hypertension

In a rat model of pulmonary hypertension, inhibition of LTB4 synthesis in macrophages that accumulate in lung tissue reverses the disease. How to Open a Blocked Vessel Like the pressure that builds up in a kinked garden hose, pulmonary hypertension occurs when the blood vessels in the lung become occluded. This hard-to-treat disease can arise in various settings, sometimes along with collagen vascular disease or HIV infection. It ultimately leads to heart failure as the heart tries to pump against higher resistance. Now, Tian and her colleagues show that certain types of pulmonary hypertension may be caused by a leukotriene B4 (LTB4) released from the macrophages that accumulate in lung tissue and that interruption of this process can reverse the disease. Although much of their evidence comes from a rat model of hypertension, the same may be true of some patients as well. Treatment of athymic rats with the tyrosine kinase inhibitor SU5416 causes them to acquire pulmonary hypertension. At the same time, macrophages gather around the small arterioles of the lung and synthesize an excess amount of LTB4. This leukotriene injures the endothelial cells of the nearby vessels, causing apoptosis while simultaneously provoking abnormal proliferation of the smooth muscle cells. This excess cell division results in arterial occlusion and hypertension. The authors found that damping down excess LTB4 by inhibiting its biosynthesis could reverse disease: In treated animals, cardiac function improved and obstructed arterioles opened. These results may apply to certain patients with pulmonary hypertension: Among a group of 19 patients, those that had pulmonary hypertension secondary to a connective tissue disease generally show higher LTB4 in serum. The next step will be to see whether therapies directed toward the LTB4 signaling system can help to clear the arterioles in patients with pulmonary hypertension, at least in those with associated inflammation. Pulmonary hypertension (PH) is a serious condition that affects mainly young and middle-aged women, and its etiology is poorly understood. A prominent pathological feature of PH is accumulation of macrophages near the arterioles of the lung. In both clinical tissue and the SU5416 (SU)/athymic rat model of severe PH, we found that the accumulated macrophages expressed high levels of leukotriene A4 hydrolase (LTA4H), the biosynthetic enzyme for leukotriene B4 (LTB4). Moreover, macrophage-derived LTB4 directly induced apoptosis in pulmonary artery endothelial cells (PAECs). Further, LTB4 induced proliferation and hypertrophy of human pulmonary artery smooth muscle cells. We found that LTB4 acted through its receptor, BLT1, to induce PAEC apoptosis by inhibiting the protective endothelial sphingosine kinase 1 (Sphk1)–endothelial nitric oxide synthase (eNOS) pathway. Blocking LTA4H decreased in vivo LTB4 levels, prevented PAEC apoptosis, restored Sphk1-eNOS signaling, and reversed fulminant PH in the SU/athymic rat model of PH. Antagonizing BLT1 similarly reversed established PH. Inhibition of LTB4 biosynthesis or signal transduction in SU-treated athymic rats with established disease also improved cardiac function and reopened obstructed arterioles; this approach was also effective in the monocrotaline model of severe PH. Human plexiform lesions, one hallmark of PH, showed increased numbers of macrophages, which expressed LTA4H, and patients with connective tissue disease–associated pulmonary arterial hypertension exhibited significantly higher LTB4 concentrations in the systemic circulation than did healthy subjects. These results uncover a possible role for macrophage-derived LTB4 in PH pathogenesis and identify a pathway that may be amenable to therapeutic targeting.

Effect of Etiology and Timing of Respiratory Tract Infections on Development of Bronchiolitis Obliterans Syndrome

BACKGROUND Among the many potential risk factors influencing the development of bronchiolitis obliterans syndrome (BOS), acute cellular rejection is the most frequently identified. Despite the unique susceptibility of the lung allograft to pathogens, the association with respiratory tract infections remains unclear. In this study we analyze the role respiratory tract infections have on the development of BOS after lung transplantation. METHODS Data from a single center were analyzed from 161 lung recipients transplanted from November 1990 to November 2005, and who survived >180 days. Univariate and multivariate Cox regression analyses were performed using BOS development and the time-scale was reported with hazard ratios (HRs) and confidence intervals (CIs). RESULTS Significant findings by univariate analysis per 100 patient-days prior to BOS onset included acute rejection, cytomegalovirus (CMV) pneumonitis, Gram-negative respiratory tract infections, Gram-positive respiratory tract infections and fungal pneumonias. Multivariate analysis indicated acute rejection, Gram-negative, Gram-positive and fungal pneumonias with HRs (CI) of 84 (23 to 309), 6.6 (1.2 to 37), 6,371 (84 to 485,000) and 314 (53 to 1,856) to be associated with BOS, respectively. Acute rejection, CMV pneumonitis, Gram-positive pneumonia and fungal pneumonitis in the first 100 days had HRs (CI) of 1.8 (1.1 to 3.2), 3.1 (1.3 to 6.9), 3.8 (1.5 to 9.4) and 2.1 (1.1 to 4.0), respectively, and acute rejection and fungal pneumonitis in the late post-operative period with HRs (CI) of 2.3 (1.2 to 4.4) and 1.5 (1.1 to 1.9), respectively. CONCLUSIONS In addition to acute rejection, pneumonias with GP, GN and fungal pathogens occurring prior to BOS are independent determinants of chronic allograft dysfunction. Early recognition and treatment of these pathogens in lung transplant recipients may improve long-term outcomes after transplantation.

Success of lung transplantation without surveillance bronchoscopy

Abstract Background: No current evidence demonstrates improved survival or decreased rate of bronchiolitis obliterans syndrome (BOS) despite regularly scheduled fiberoptic bronchoscopy (FOB) with transbronchial biopsy and bronchoalveolar lavage (TBB/BAL) after lung transplantation. Reduced lung function detected with spirometry or oximetry in symptomatic and asymptomatic lung allograft recipients (LARs) may be a more appropriate indication for bronchoscopic sampling. Hypothesis: Clinically indicated TBB/BAL without routine invasive surveillance sampling of the transplanted lung does not decrease survival or increase the rate of BOS in LARs. Methods: We reviewed 91 consecutive LARs transplanted at Ochsner Clinic between January 1995 and December 1999. Clinical indications for FOB with TBB/BAL include 10% decline in forced expiratory volume in 1 second below baseline; 20% decrease in forced expiratory flow rate between 25% and 75% of the forced vital capacity; or unexplained respiratory symptoms, signs, or fever. Along with demographic and clinical data, 1-year and 3-year survival rates for these 91 LARs were compared with 5,430 LARs from the International Society for Heart and Lung Transplantation (ISHLT) Registry transplanted during the same 60-month period. Ten of the 91 patients did not survive to hospital discharge after transplantation. We divided the remaining 81 LARs into 2 subsets: Group A patients ( n = 43) underwent zero to 1 TBB/BAL and Group B patients ( n = 38) required more than 1 procedure. Demographic data, rejection, infection, and incidence of BOS were compared between groups. Results: The 1-year and 3-year survival rates in the Ochsner LAR cohort were 85% and 73%, respectively, vs 72% and 57% in the ISHLT cohort p p p = not significant. We observed twice as many patients with cystic fibrosis and twice as many pneumonia episodes in Group B. The rate of acute rejection in each group was not statistically different. The cumulative incidence of BOS was increased in Group B at 1 year and at 3 years (5% and 56%) when compared with Group A (3% and 13%), p Conclusion: Based on the findings from this observational, single-institution study, clinically indicated TBB/BAL without routine surveillance sampling of the lung allograft is unlikely to pose greater risk than does regularly scheduled bronchoscopy after lung transplantation.

Increasing Lung Allocation Scores Predict Worsened Survival Among Lung Transplant Recipients

Implemented in 2005, the lung allocation score (LAS) aims to distribute donor organs based on overall survival benefits for all potential recipients, rather than on waiting list time accrued. While prior work has shown that patients with scores greater than 46 are at increased risk of death, it is not known whether that risk is equivalent among such patients when stratified by LAS score and diagnosis. We retrospectively evaluated 5331 adult lung transplant recipients from May 2005 to February 2009 to determine the association of LAS (groups based on scores of ≤46, 47–59, 60–79 and ≥80) and posttransplant survival. When compared with patients with LAS ≤ 46, only those with LAS ≥ 60 had an increased risk of death (LAS 60–79: hazard ratio [HR], 1.52; 95% confidence interval [CI], 1.21–1.90; LAS ≥ 80: HR, 2.03; CI, 1.61–2.55; p < 0.001) despite shorter median waiting list times. This risk persisted after adjusting for age, diagnosis, transplant center volume and donor characteristics. By specific diagnosis, an increased hazard was observed in patients with COPD with LAS ≥ 80, as well as those with IPF with LAS ≥ 60.

Ganciclovir for cytomegalovirus: a call for indefinite prophylaxis in lung transplantation.

BACKGROUND Universal ganciclovir (GCV) prophylaxis is a strategy aimed at reducing cytomegalovirus (CMV) infection and delaying the development of bronchiolitis obliterans syndrome (BOS). However, the optimal duration of GCV prophylaxis remains unclear. We report our experience with GCV prophylaxis administered indefinitely and its effect on CMV pneumonitis, BOS and survival after lung transplantation (LT). METHODS One hundred fifty-one patients surviving >100 days after LT were analyzed. GCV was given to 130 CMV donor- or recipient-seropositive patients. Data from 90 patients who received indefinite GCV prophylaxis (IND) and 40 patients who discontinued their GCV prophylaxis (STOP) were compared. RESULTS CMV pneumonitis occurred in 16%, 8%, 17% and 19% of patients in the D+R+, D-R+, D+R- and D-R- groups, respectively. In the STOP cohort, 15 of 40 patients developed CMV pneumonitis (median time 79 days) after GCV was stopped. Ten of these 15 patients developed BOS (median time 116 days) after discontinuing GCV. The risk of CMV pneumonitis in the STOP cohort was significantly higher when GCV prophylaxis was discontinued within the first year. Cumulative incidence of CMV pneumonitis in the IND and STOP groups at 5 years was 2% and 57%, respectively (p < 0.001). BOS-free survival and survival were similar across both groups. CONCLUSIONS Indefinite GCV prophylaxis prevents CMV pneumonitis in 98% of LT recipients. Thirty-eight percent of patients discontinuing prophylaxis developed CMV pneumonitis, 50% of whom progressed to BOS within 1 year. Continuing ganciclovir prophylaxis indefinitely after lung transplantation should be considered.

A multi‐drug regimen for respiratory syncytial virus and parainfluenza virus infections in adult lung and heart–lung transplant recipients

V. Liu, G.S. Dhillon, D. Weill. A multi‐drug regimen for respiratory syncytial virus and parainfluenza virus infections in adult lung and heart–lung transplant recipients.
Transpl Infect Dis 2010: 12: 38–44. All rights reserved

Infections in Lung Allograft Recipients: Ganciclovir Era

BACKGROUND Infections are common after lung transplantation. This report analyzes infections and associated pathogens identified in 202 lung transplant recipients. METHODS Infections were tallied according to sites of infection and associated pathogen(s). Infection events were also categorized by post-operative Days 0 to 100, 101 to 365, and after 365, and normalized to 100 patient-days before and after bronchiolitis obliterans syndrome (BOS). RESULTS From November 1990 to November 2005, 202 patients received 208 lung transplants. The follow-up was 702.4 patient-years. A total of 178 lung transplant patients developed 859 infections, with 944 pathogens identified. Infections were in the lung in 559 (65.1%), mucocutaneous (skin, wound, catheter-related, and oral) in 88 (10.2%), in the blood in 85 (9.8%), and in other sites (urine, bowel, eye, and peritoneum) in 127 (14.8%). Most lung pathogens were bacterial (83.6%), and 57.9% were Pseudomonas aeruginosa. Fungi comprised 10.6%, with Aspergillus spp the most common (67.1%) isolate. Cytomegalovirus pneumonitis was seen in 4.3% of respiratory infections. BOS was diagnosed in 87 patients (43.1% of the total). Of all infections seen in the BOS population, there were 0.42 episodes/100 patient-days and 0.70 episodes/100 patient-days before and after BOS, respectively (p = 0.5). CONCLUSIONS These data provide an updated infection profile in the ganciclovir era after lung transplantation. When compared with pre-ganciclovir times, post-transplant cytomegalovirus infection incidence has notably declined, with filamentous fungi emerging as prevalent pathogens in its place. Such findings are important for refining management of infections in order to offer more stringent treatment against aggressive pathogens.

Lung transplant airway hypoxia: a diathesis to fibrosis?

RATIONALE Chronic rejection, manifested pathologically as airway fibrosis, is the major problem limiting long-term survival in lung transplant recipients. Airway hypoxia and ischemia, resulting from a failure to restore the bronchial artery (BA) circulation at the time of transplantation, may predispose patients to chronic rejection. To address this possibility, clinical information is needed describing the status of lung perfusion and airway oxygenation after transplantation. OBJECTIVES To determine the relative pulmonary arterial blood flow, airway tissue oxygenation and BA anatomy in the transplanted lung was compared with the contralateral native lung in lung allograft recipients. METHODS Routine perfusion scans were evaluated at 3 and 12 months after transplantation in 15 single transplant recipients. Next, airway tissue oximetry was performed in 12 patients during surveillance bronchoscopies in the first year after transplant and in 4 control subjects. Finally, computed tomography (CT)-angiography studies on 11 recipients were reconstructed to evaluate the post-transplant anatomy of the BAs. MEASUREMENTS AND MAIN RESULTS By 3 months after transplantation, deoxygenated pulmonary arterial blood is shunted away from the native lung to the transplanted lung. In the first year, healthy lung transplant recipients exhibit significant airway hypoxia distal to the graft anastomosis. CT-angiography studies demonstrate that BAs are abbreviated, generally stopping at or before the anastomosis, in transplant airways. CONCLUSIONS Despite pulmonary artery blood being shunted to transplanted lungs after transplantation, grafts are hypoxic compared with both native (diseased) and control airways. Airway hypoxia may be due to the lack of radiologically demonstrable BAs after lung transplantation.

Clostridium difficile colitis in lung transplantation

Purpose. Clostridium difficile colitis (CDC) is the most common nosocomial infection of the gastrointestinal tract in patients with recent antibiotic use or hospitalization. Lung transplant recipients receive aggressive antimicrobial therapy postoperatively for treatment and prophylaxis of respiratory infections. This report describes the epidemiology of CDC in lung recipients from a single center and explores possible associations with bronchiolitis obliterans syndrome (BOS), a surrogate marker of chronic rejection.