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Erschienen in: AIDS Research and Therapy 1/2011

Open Access 01.12.2011 | Research

T cell Activation does not drive CD4 decline in longitudinally followed HIV-infected Elite Controllers

verfasst von: Philomena Kamya, Christos M Tsoukas, Salix Boulet, Jean-Pierre Routy, Réjean Thomas, Pierre Côté, Mohamed-Rachid Boulassel, Bernard Lessard, Rupert Kaul, Mario Ostrowski, Colin Kovacs, Cecile L Tremblay, Nicole F Bernard

Erschienen in: AIDS Research and Therapy | Ausgabe 1/2011

Abstract

Background

Elite controllers (EC) are a rare subset of HIV infected individuals who control viral load below 50 copies/ml of plasma without treatment.

Methods

Thirty four EC were studied. The slope of CD4 count change was available for 25 of these subjects. We assessed immune activation by measuring the percent of CD38+HLA-DR+CD8+ T cells in the EC group and comparing it with that in 24 treatment-naïve HIV disease progressors and 13 HIV uninfected healthy controls.

Results

Compared to HIV uninfected subjects, EC had higher percentages of CD38+HLA-DR+CD8+ T cells (p < 0.001) that was lower than that observed in progressors (p < 0.01). Fifteen of 25 EC had a slope of CD4 count change that was not significantly different from 0 while 3 had a positive and 7 a negative CD4 count slope. Immune activation did not distinguish EC subsets with stable/increasing versus declining CD4 counts.

Conclusions

Elevated immune activation in ECs is not associated with a faster rate of CD4 decline
Hinweise

Electronic supplementary material

The online version of this article (doi:10.​1186/​1742-6405-8-20) contains supplementary material, which is available to authorized users.

Competing interests

The authors declare that they have no competing interests.

Authors' contributions

PK designed the study, designed and optimized the antibody panel, performed the experiments, analyzed the data and prepared the manuscript. CMT and SB aided in study design, and critical review of manuscript. CMS, JPR, RT, PC, MRB, BL, RK, MO, CC, and CT followed the Elite controller subjects clinically and provided samples for this study. NFB designed the study and prepared manuscript.
All authors have read and approved the final manuscript.

Introduction

Untreated HIV infection is usually characterized by viral replication and chronic generalized immune activation, which is thought to be an important driver of CD4 decline in HIV infection [16]. Markers of immune activation such as CD38 can be found on a high proportion of the CD8+ T cells in HIV infected individuals. CD38, an ectoenzyme involved in transmembrane signaling and cell adhesion, is ubiquitous in its distribution among cells of the immune system and is a marker of both activation and differentiation [7]. HLA-DR is a human major histocompatability complex (MHC) class II antigen that is expressed on macrophages, monocytes, B cells and on activated T and NK cells. The co-expression of CD38 and HLA-DR on CD8+ T cells has been used to detect immune activation in HIV infected individuals with low-level viremia and to distinguish populations that spontaneously control VL from those successfully treated with anti-retroviral drugs [8, 9].
While stimulation of the immune system by HIV likely induces anti-viral immunity that plays a role in suppression of viral replication, chronic immune activation of non HIV-specific T cells reflects rapid cell turnover due to increased expansion and contraction of antigen stimulated T cell clones [2]. This process leads to CD4+ T cell depletion and immune exhaustion [4, 8, 10].
Less than 1% of those infected with HIV maintain VL below the level measured by standard assays, i.e <50 copies/ml plasma, long term without treatment and are called Elite Controllers (EC) or Elite Suppressors [1015]. Despite VL control some EC have low or declining CD4 counts [8, 9, 14, 16, 17].
Here, we assessed the percent of CD38+DR+CD8+ T cells in 34 EC and compared these values to that seen in chronically infected HIV progressors and uninfected healthy controls. For 25 EC there were a sufficient number of longitudinally collected CD4 count determinations to calculate the annual rate of CD4 count change. Since immune activation is implicated in HIV disease progression and varied among EC, we questioned whether EC with stable or increasing CD4 counts would have lower immune activation levels than those with declining CD4 counts.
We confirmed previous studies reporting abnormally high immune activation levels among EC compared to healthy uninfected controls and lower levels than seen is HIV infected progressors in the chronic phase of infection [8, 18, 19]. We found that that immune activation measures were similar in EC with stable/increasing versus declining CD4 counts.

Materials and methods

Study population

The study population included 58 untreated HIV-infected individuals (34 EC, 24 progressors) and 13 HIV-negative healthy controls. Informed consent was obtained from all participants and the research conformed to all ethical guidelines of the participating institutions. 28 EC were recruited from the Canadian Cohort of HIV Infected Slow Progressors, which recruits HIV-infected individuals from several community and university-based hospital clinical centres in Canada; six were from a cohort of HLA-B*57 positive EC followed at the National Institutes of Health [12]. EC were defined as having HIV RNA levels below the level of detection by an ultrasensitive VL assay (<50 copies/mL) on at least 3 occasions for at least 1 year. VL was undetectable at the time point immune activation was assessed. HIV disease progressors were infected for at least 1 year with evidence of declining CD4+ T cell counts that fell below 500 cells/mm3 and VL >10,000 copies/ml. None of the study subjects had evidence of concurrent infections at the time immune activation was assessed. For comparison, 13 healthy uninfected controls were also studied.

Laboratory testing

Plasma viremia was measured using the Versant HIV-1 3.0 RNA assay (bDNA) (Bayer Diagnostics, Tarrytown, NY) with a detection limit of 50 HIV-1 RNA copies/ml of plasma.

Cells

Blood was obtained by either venipuncture into tubes containing EDTA anticoagulant or by leukapheresis as previously described [20]. Peripheral blood mononuclear cells (PBMCs) were isolated by density gradient centrifugation (Ficoll-paque, Pharmacia Uppsala, Sweden) and cryopreserved in 10% dimethlyl sulfoxide (DMSO, Sigma-Aldrich, St- Louis, MO) 90% fetal bovine serum (FBS, Medicorps, Montreal, Quebec, Canada).

Flow Cytometry

Activation marker expression levels on T cells was measured on thawed PBMCs that were at least 80% viable by staining with fluorescein isothiocyanate (FITC) conjugated anti-CD8, phycoerythrin (PE) conjugated anti-CD38, allophycocyanin (APC) conjugated anti-HLA-DR, and peridinin chlorophyll protein (PerCP) anti-CD3 antibodies (BD Biosciences, Mississauga, Canada) for 30 minutes in the dark. In parallel, control samples were stained with PE- and APC-conjugated immunoglobulin isotype control antibodies (BD Biosciences) and used to set gates for defining positive staining. Analysis was performed on a FACSCalibur instrument (BD Biosciences). At least 100,000 events were acquired and analyzed using FlowJo software, version 8.8 (Tree Star, Inc, Ashland OR).

Statistics

GraphPad Prism software version 4.0a was used for graphical presentation and GraphPad InStat version 3.06 for statistical analysis. Mann-Whitney and Kruskal-Wallis tests with Dunn's multiple post-test comparisons were used to assess the significance of between group differences for comparisons of 2 and more than 2 groups, respectively. Linear regression was used to calculate CD4 count change. P-values <0.05 were considered significant.

Results

Study population

Table 1 provides information on age, CD4 count, CD8 counts and log10VL at the time at which percent CD38+DR+CD8+ T cells were assessed for each of the EC participants included in this study. It also presents information on the number of CD4 count assessment and follow up time used to calculate annual rate of CD4 count change with 95% confidence intervals (CI). In most cases the duration of follow up for CD4 counts and that for virological assessments was the same. Only one subject, EC 11 who was followed for more than 16 years, lost viral control 9 years into follow up. All the other EC subjects maintained VL <50 copies/ml of plasma throughout follow up. Table 2 compares the gender composition, median (range) age, CD4 count, CD8 count, log10VL and duration of infection for the EC group with that of 24 HIV infected progressors. The ECs and progressor groups were similar to each other in age and absolute CD8 T cell counts (p > 0.05; Mann-Whitney test). As expected based on the criteria used to define the study populations, EC had significantly lower log10VL and higher absolute CD4 counts compared to progressors at the time of immune activation assessment (p < 0.05 for both comparisons; Mann-Whitney test). EC were infected for longer than progressors (p < 0.05; Mann Whitney test). The control group of 13 healthy controls included 9 males and 4 females aged a median (range) of 27 (23, 51) yrs.
Table 1
Elite Controller Study Population Characteristics.
Subject ID
Gender1
Age2
CD43
CD83
Duration of infection2
%CD38+DR+CD8+
Duration CD4 FUP/VL control2,3
#CD4 assessments
Annual Rate of CD4 decline4
EC 1
M
37
680
680
1
14.60
2.91
8
9.4 (-55.9,74.8)
EC 2
M
31
715
384
5
5.42
5.14
11
-17.7 (-56.2,20.8)
EC 3
M
68
660
1082
4
3.59
5.16
17
6.19 (-14.5,26.7)
EC 4
F
58
714
714
4
4.68
5.77
14
-6.73 (-50.7,37.2)
EC 5
M
53
310
730
6
3.95
5.27
14
-52.6 (-76.6,28.5)
EC 6
F
46
720
631
11
6.63
8.75
25
-7.4 (-22.7,8.0)
EC 7
M
37
1040
1095
11
4.33
9.64
22
14.4 (-6.5,35.3)
EC 8
F
40
737
303
12
7.11
12.08/14.52
22
-44.2 (-58.0,-30,4)
EC 9
M
53
800
288
10
7.35
14.88
35
15.9 (10.3,21.6)
EC 10
M
45
1050
1296
20
7.41
12.27
22
-11.2 (-27.9,5.4)
EC 11
M
39
689
455
9
10.20
16.78/9.12
86
-48.9 (-59.2,-38.6)
EC 12
F
33
728
434
10
2.36
17.30
79
-49.2 (-53.4,-45.0)
EC 13
M
47
770
1130
19
12.70
20.02/21.63
17
-33.0 (-50.6,-15.3)
EC 14
M
31
928
1566
2
20.00
2.75
N.A.
N.A.5
EC 15
F
31
442
816
2
12.40
4.75
4
15.8 (-19.3,50.9)
EC 16
F
60
800
1026
13
3.00
13.64
8
-5.3 (-58,7,58.0)
EC 17
M
40
460
307
4
6.35
3.87
10
4.3 (-40.9,49.6)
EC 18
M
42
870
551
1
8.27
1.50
N.A.
N.A.
EC 19
F
30
692
627
6
10.10
2.17
6
-17.0 (-121.5,87.5)
EC 20
F
40
576
498
12
20.20
15.18/15.73
13
-30.9 (-50.2,-11.7)
EC 21
M
36
343
804
14
12.20
1.05
N.A.
N.A.
EC 22
M
61
670
540
4
12.5
4.62
11
32.1 (-27.3,91.5)
EC 23
M
53
740
820
11
33.2
18.01
16
-15.1 (-33.3,3.0)
EC 24
M
41
978
787
1
37.3
11.24
29
-16.0 (-27.6,-4.4)
EC 25
M
55
990
680
10
15.3
9.48
16
-29.0 (-70.5, 12.5)
EC 26
M
68
970
400
17
17.5
13.18
19
14.5 (3.8,25.2)
EC 27
M
41
1200
860
11
13.9
12.39
34
28.6 (7.4,49.7)
EC 28
M
48
700
920
8
35.4
17.20
35
-1.4 (-5.0,2.1)
EC 29
F
53
499
202
8
28.9
N.A.
N.A.
N.A.
EC 30
M
40
510
1286
14
21.5
N.A.
N.A.
N.A.
EC 31
F
47
485
277
20
17.3
N.A.
N.A.
N.A.
EC 32
F
56
865
388
15
20.7
N.A.
N.A.
N.A.
EC 33
F
56
1488
1012
17
2.39
N.A.
N.A.
N.A.
EC 34
M
56
801
713
18
20.7
N.A.
N.A.
N.A.
1M = male;F = female
2 years.
3The duration of CD4 follow up/duration of viral load control if different from duration of CD4 follow up.
4 cells/mm3 (95% confidence intervals).
5 Not available (insufficient information available to calculate a slope of CD4 counts change).
Table 2
Study population descriptive statistics.
HIV-infected group
Age (yrs)1
Gender (M/F)
CD4 count1,2
CD8 count1,2
Log 10 VL1
Duration of infection ( yrs)1
EC (n = 34)
40 (30-68)
19/8
755 (310-1488)
696 (202-1286)
1.70 (1.70-1.70)
12.17 (1-20)
Progressors (n = 24)
36 (24-52)
22/3
314 (191-480)
710 (113-2260)
4.29 (2.51-5.91)
2 (2-12)
M = Male, F = Female, EC = Elite Controllers
1 = Median (range)
2 = cells/mm3

Assessment of immune activation in HIV-infected EC, progressors and healthy controls

To address the reproducibility of the assessment of percent CD38+DR+CD8+ T cells we tested 6 time points from the same HIV positive treatment naïve EC individual in duplicate on 2 occasions. The average intra- and inter-assay coefficients of variation (CV) were 3.7% and 12.62%, respectively. The CV for this measure determined 6 times over 3 years of follow up was 14.9%. In contrast, the CV for percent CD38+DR+CD8+ T cells observed among the individuals in the EC and progressor groups was 67.5% and 65.4%, respectively. Therefore, the intra- and inter-assay variability for assessment of this immune activation parameter did not exceed 13% providing a measure of the reproducibility of this immune activation parameter within and between experiments. The variability of this immune activation marker within a study subject followed 6 times over 3 years was less than the variability observed among unrelated HIV infected EC or progressors confirming the notion of an immune activation set point introduced by Deeks et al [10].
Figure 1 shows a scatter plot displaying the distribution of the percent of CD38+DR+CD8+ T cells in the 3 study groups. Healthy controls, EC and HIV infected progressors had a median (range) of percent CD38+DR+CD8+ T cells of 2.83 (0.9, 7.3), 12.6 (2.3, 37.3) and 39.8 (2.87, 77.4), respectively. Levels of this marker were significantly higher in EC than in healthy controls and lower than in progressors (p < 0.01 and p < 0.001 for both comparisons; Dunn's multiple comparisons test).

EC with declining CD4 counts do not have higher levels of percent CD38+DR+CD8+ T cells than those with stable/increasing CD4 counts

Previous studies have proposed immune activation to be an important driver of CD4 decline [2, 21]. Twenty-five EC were followed longitudinally for a minimum of 2 years with at least 4 CD4 count determinations. We used this information to calculate their annual rate of CD4 count change. The median (range) number of CD4 determinations per subject was 18 (4, 86) taken over 10 (1, 20) yrs. Overall, the rate of CD4 count change was -6.04 (-48.9, 32.1) (Table 1). Since longitudinal CD4 count determinations for any one patient are not linear and biological fluctuations in CD4 count occur, leading to wide 95% CI for CD4 count slopes within any given patient, we categorized all CD4 count slopes having a 95% CI that crossed zero as not significantly different from zero or stable. According to this criterion 15 EC had stable CD4 count slopes, 3 had CD4 count slopes that increased and 7 that declined significantly. Figure 2 shows graphs plotting the CD4 count change for the 10 subjects with either increasing (Figure 2A) or decreasing (Figure 2B) annual CD4 slopes. Since the EC group described here exhibited higher immune activation levels than healthy controls, we questioned whether EC with declining CD4 counts would have higher immune activation levels than those with stable or increasing CD4 count slopes. The percent of CD38+DR+CD8+ T cells for EC with declining and stable/increasing CD4 count slopes was 8.8 (3, 35.4) and 10.2 (2.4, 37.3) (p = 0.92, Mann-Whitney test) (Figure 3). Therefore, EC with falling CD4 counts were indistinguishable from those with stable/increasing CD4 counts with respect to this measure of immune activation.

Discussion

We confirmed previous reports of elevated levels of CD8+ T cell immune activation among EC compared to healthy uninfected subjects [8, 16]. EC with a declining CD4 counts did not have elevated percent CD8+DR+CD8+ T cell levels compared to those with stable or increasing CD4 counts.
High T-cell activation levels predict more rapid disease progression in untreated HIV infected individuals and decreased treatment mediated gains during anti-retroviral therapy independent of plasma HIV RNA levels [4, 5, 2224]. The correlation between HIV VL and immune activation has made it difficult to resolve the relative contributions of immune activation independently of viremia on disease progression. Although spontaneous control of viremia predicts slower HIV disease progression, VL alone only explains a fraction of the variability in rate of HIV disease progression [25].
Even in EC, undetectable VL is not always accompanied by maintenance of CD4 counts above 500 cells/mm3 and a stable CD4 count slope, suggesting that some EC are exhibiting evidence of HIV disease progression [8, 9, 13, 14, 16, 26, 26, 27]. We hypothesized that in a setting of controlled viremia it would be possible to determine whether immune activation is driving the rate of CD4 count change. Although there have been several reports of EC exhibiting low or declining CD4 counts despite VL control to below the limit of detection of standard assays, the cross sectional nature of some of these analyses [8], small sample size [9, 16, 26] and failure to take 95% CI into consideration in assigning a negative value to the slope of CD4 count change [14, 27] may have limited their ability to determine whether immune activation is driving CD4 decline. The results presented here add to this body of knowledge by reporting that in a group of 25 EC with a median (range) follow up time of 10 (1,20) yrs and 18 (4,86) CD4 count determinations 7 (28%) EC exhibited a negative slope of CD4 count change. Since those with declining CD4 counts did not have higher levels of immune activation than those with stable or increasing CD4 counts our results support the interpretation that the level of immune activation as determined by the percent of CD38+DR+CD8+ T cell levels is not high enough in EC to drive CD4 decline.
Recently, it has been observed that most EC have low-level viremia detected by assays that are more sensitive than the standard VL assays [2729]. A limitation of the results reported here is that we do not have access to sufficient volumes of plasma from these subjects to obtain information on VL levels using more sensitive assays detecting VL levels below 50 copies/ml plasma to address this point. Therefore we cannot rule out that low level VL may be a determinant of immune activation as measured by assessment of percent CD38+DR+CD8+ T cells.
In summary, despite VL control, EC have higher CD8+ T cell activation levels than uninfected healthy controls. Some EC have declining CD4 counts and thus appear to be exhibiting HIV disease progression. Immune activation as determined by percent CD38+HLA-DR+CD8+ T cell levels in not higher in the EC subset with falling CD4 counts.

Acknowledgements

The authors wish to thank the study participants of the Montreal Slow Progressor and Primary Infection cohorts and Mr. Mario Legault and Ms Stephanie Matte, the coordinators for these respective cohorts. We also thank Drs. Joe Cox, Julian Falutz, Danielle Legault, Danielle Longpré, Danielle Rouleau, Martin Potter, Richard Lalonde, John MacLeod, Marina Klein, Serge Dufresne, Marc-André Charron. Michel Boissonnault, Sylvie Vézina, Annie Talbot, Mark Connors and Stephen Migueles who recruited and followed participants included in this study. We acknowledge the expert technical support of Ms. Marie-Pierre Boisvert, Ms. Nancy Simic, Mr. Saied Sharafi and Mr. Benjamin Tallon. This work was funded by the Réseau du SIDA et Maladies Infectueuses du Fonds de Recherche en Santé du Québec (FRSQ) and by a grant from the Canadian Institutes for Health Research #HOP-86862. SB was supported by a Ph.D scholarship from the FRSQ and J-P Routy is a scientific scholar receiving support from FRSQ.
Open Access This article is published under license to BioMed Central Ltd. This is an Open Access article is distributed under the terms of the Creative Commons Attribution License ( https://​creativecommons.​org/​licenses/​by/​2.​0 ), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

Competing interests

The authors declare that they have no competing interests.

Authors' contributions

PK designed the study, designed and optimized the antibody panel, performed the experiments, analyzed the data and prepared the manuscript. CMT and SB aided in study design, and critical review of manuscript. CMS, JPR, RT, PC, MRB, BL, RK, MO, CC, and CT followed the Elite controller subjects clinically and provided samples for this study. NFB designed the study and prepared manuscript.
All authors have read and approved the final manuscript.
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Metadaten
Titel
T cell Activation does not drive CD4 decline in longitudinally followed HIV-infected Elite Controllers
verfasst von
Philomena Kamya
Christos M Tsoukas
Salix Boulet
Jean-Pierre Routy
Réjean Thomas
Pierre Côté
Mohamed-Rachid Boulassel
Bernard Lessard
Rupert Kaul
Mario Ostrowski
Colin Kovacs
Cecile L Tremblay
Nicole F Bernard
Publikationsdatum
01.12.2011
Verlag
BioMed Central
Erschienen in
AIDS Research and Therapy / Ausgabe 1/2011
Elektronische ISSN: 1742-6405
DOI
https://doi.org/10.1186/1742-6405-8-20

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