The role of intradermal proliferation of T-cells in the pathogenesis of psoriasis*

Khairutdinov, Vladislav R.; Mikhailichenko, Anastasiya F.; Belousova, Irena E.; Kuligina, Ekatherina Sh.; Samtsov, Alexey V.; Imyanitov, Evgeny N.

doi:10.1590/abd1806-4841.20175765

Abstract:

BACKGROUND:

Psoriasis is a common immune-mediated chronic inflammatory disease of the skin and joints, affecting 1-3% of the population. It is generally accepted that the pathogenesis of psoriasis involves accumulation of effector T-cells within lymph nodes and their subsequent migration into the skin through the blood system. Here we provide evidence that psoriatic plaque itself may serve as a source of inflammatory T-cells.

OBJECTIVE:

We examined the intradermal proliferation of T-cells and the number of effector/memory (CD45RO+) T-cells in the skin of psoriatic patients at different periods of the disease.

METHODS:

Skin samples were obtained from 41 patients with progressive psoriatic lesions; 18 of these patients also donated skin specimens during the remission of the disease. The control group consisted of 16 healthy subjects. Ki-67 immunohistochemical staining was applied to detect proliferating cells, CD3ε served as a T-cell marker, and CD45RA and CD45RO antibodies were utilized to discriminate between naive and effector/memory T-cells, respectively.

RESULTS:

Progressive psoriatic lesions demonstrated Ki67 staining both in keratinocytes and in the CD3ε+ cells of dermal infiltrate. Median count of CD45RO+ cells per microscopic field was 15 in healthy controls, 59 in patients in remission and 208 in progressive psoriatic plaques. The observed differences demonstrated high level of statistical significance.

STUDY LIMITATIONS:

Limited number of analyzed patients.

CONCLUSION:

Progressive phase of psoriasis is characterized by intradermal proliferation of T-cells. Spots of regressed psoriatic lesions contain high number of CD45RO+ cells, which are likely to render an immunological memory.

Keywords:
Cell proliferation; Psoriasis; T-Lymphocytes

INTRODUCTION

Psoriasis is a common immune-mediated chronic inflammatory disease of the skin and joints, affecting 1-3% of the population.¹1 Christophers E. Psoriasis-epidemiology and clinical spectrum. Clin Exp Dermatol. 2001;26:314-20. The pathogenesis of psoriasis involves activation of Langerhans cells in the epidermis followed by their migration into the dermis; these cells subsequently relocate to draining lymph nodes and present antigens to naive T-cells.²2 Perera GK, Di Meglio P, Nestle FO. Psoriasis. Annu Rev Pathol. 2012;7:385-422. This induces the differentiation of Th₀ cells into Th₁ and Th₁₇ lymphocytes; the mobilization of the latter to the skin results in a formation of psoriatic plaque.³3 Tuettenberg A, Becker C, Correll A, Steinbrink K, Jonuleit H. Immune regulation by dendritic cells and T-Cells--basic science, diagnostic, and clinical application. Clin Lab. 2011;57:1-12.^,⁴4 Di Meglio P, Perera GK, Nestle FO. The multitasking organ: recent insights into skin immune function. Immunity. 2011;35:857-69. Antigen-specific differentiation is accompanied by the change of T-cell phenotype from CD4⁺CD45RA⁺ (naive) to CD4⁺CD45RO⁺ (effector/ memory).⁵5 Clement LT. Isoforms of the CD45 common leukocyte antigen family: markers for human T-cell differentiation. J Clin Immunol. 1992;12:1-10.

This model is perfectly compatible with the primary immune response observed at the onset of the disease, e.g. in the guttate psoriasis. Indeed, the development of psoriasis frequently involves inflammation of the pharyngeal lymphoid ring caused by β-hemolytic streptococcus. The latent period of 2-3 weeks is required for the maturation of effector T-cells and hematogenous dissemination of these cells, as evidenced by multifocal lesions.⁶6 Owen CM, Chalmers RJ, O'Sullivan T, Griffiths CE. A systematic review of antistreptococcal interventions for guttate and chronic plaque psoriasis. Br J Dermatol. 2001;145:886-90.^,⁷7 Nestle FO, Kaplan DH, Barker J. Review article: Mechanisms of Disease. Psoriasis. N Engl J Med. 2009;361:496-509.

However, the above model fails to explain some aspects of the disease relapse. For example, the recurrence of plaques is usually observed on the same ("favorite") sites, suggesting the existence of topical immunological memory within the skin. Surprisingly, regional lymph nodes always remain intact, irrespectively of the severity of psoriatic relapse. Altogether, these observations put into the question the exclusive role of lymph nodes in producing effector T-cells. We hypothesized that the psoriatic skin itself may serve as a source of antigen-specific T-cells. This report provides evidence to support this assumption.

METHODS

Patients and biopsies

The study included 41 patients with active psoriasis vulgaris (mean age 43.9±12.5 years) who did not receive any systemic or topical treatment at least within 4 weeks prior the examination. Punch biopsies (6 mm) were obtained from the periphery of psoriatic plaques. 18 of these patients underwent second biopsy in the same skin spot at the time of disease remission. Control samples from 16 healthy individuals included the material leftover after plastic surgeries (mean age 36.1±12.6 years). All recruited subjects were required to sign an informed consent form.

Antibodies and immunohistochemistry

The antibodies used for immunohistochemistry are listed in table 1. The numbers of CD45RA⁺, CD45RO⁺, Ki67⁺ and CD3ε⁺Ki67⁺ cells in tissue sections were counted at 200× magnification on three non-contiguous random grids under high-power field (size 720 × 530 µm = 0.38 mm²). The image analysis was assisted by the "UTHSCSA ImageTool 3.0" software. Based on the obtained data, median count of positive cells per field was calculated.

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Table 1
Antibodies for immunohistochemical analysis

Statistical analysis was performed using the IBM SPSS Statistics, version 20. Wilcoxon-Mann-Whitney test was used to evaluate the differences between the samples of the skin from progressive psoriatic lesions, remission of psoriasis and healthy individuals. A p-value of less than 0.01 was considered significant.

RESULTS

Median count of Ki67⁺ cells per field in the derma of the groups of patients with progressive disease, patients in remission and healthy individuals was 40, 7, and 3, respectively (Table 2). In addition, abundant Ki67 staining was detected in keratinocytes of the basal and lower spinous layers of the epidermis of progressive psoriatic lesions (Figure 1). As expected, the number of proliferating Ki67-positive cells was significantly higher in the derma samples from the patients with progressive psoriatic lesions compared with samples from the patients in remission; meanwhile, the derma of healthy individuals contained very few scattered Ki67 positive cells (Table 2, Figure 1).

Figure 1
Immunohistochemical staining for Ki67⁺, CD3ε⁺Ki67⁺, CD45RA⁺, and CD45RO⁺ cells in the progressive psoriatic lesions, seemingly intact skin in remission and skin of healthy individuals (Hematoxylin & eosin x200)

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Table 2
Immunohistochemical characteristics of the derma of progressive psoriatic lesions, remission of psoriasis and healthy individuals

Double staining with Ki67 and T-cell marker CD3ε (CD3ε⁺Ki67⁺) confirmed that approximately 30% of all proliferating cells in the dermis of progressive psoriatic lesions appeared to be T-cells (Table 2 and Figure 2). No proliferating T-cells were detected in the skin of healthy individuals (Figure 1). The skin of patients with psoriasis in remission contained just single proliferating T-cells.

Figure 2
Double immunohistochemical staining for CD3ε⁺Ki67⁺ cells (Hematoxylin & eosin x600)

Naive and effector/memory T-cells can be distinguished by the CD45RA/CD45RO staining. We found that the skin of psoriatic patients in acute phase contained significantly higher number of CD45RO⁺ effector/memory T-cells (median count: 208) as well as CD45RA⁺ naive T-cells (median count: 25) compared with patients in remission (median counts 59 and 8, respectively) and healthy controls (median counts 15 and 3, respectively). Interestingly, the spots of regressed psoriatic lesions also contained remarkable number of СD45RO⁺ cells (Table 2, Figure 1).

Thus, the obtained data suggest that proliferation of T-cells in psoriatic patients does not necessarily involve lymph node tissue, but can occur directly in the progressive psoriatic lesions. Apparently, topical effector/memory T-cells (CD45RO⁺) serve as a primary source of lymphocyte expansion.

DISCUSSION

Some of the earlier studies reported that psoriatic lesions are virtually devoid of Ki-67-positive dermal T-cells, however later, in 1990, Nickoloff and Griffiths revealed Ki-67-positive T-cells in psoriatic lesions.⁸8 Orteu CH, Poulter LW, Rustin MH, Sabin CA, Salmon M, Akbar AN.. The role of apoptosis in the resolution of T-Cell-mediated cutaneous inflammation. J Immunol. 1998;161:1619-29.^,⁹9 Ralfkiaer E, Stein H, Bosq J, Gatter KC, Ralfkiaer N, Wantzin GL, et al. Expression of a cell cycle-associated nuclear antigen (Ki-67) in cutaneous lymphoid infiltrates. Am J Dermatopathol. 1986;8:37-43. Ki-67 expression was shown to occur in T-cells after their migration into the epidermis and interaction with keratinocytes; however, immunohistochemical analysis demonstrated that more than 95% of the dermal T-cells in psoriatic lesions were Ki-67 negative, suggesting that they were in a resting or non-cycling (G_o) state. The authors concluded that Т cells proliferate extra-cutaneously and then migrate to the skin.¹⁰10 Nickoloff BJ, Griffiths CE. Lymphocyte trafficking in psoriasis: a new perspective emphasizing the dermal dendrocyte with active dermal recruitment mediated via endothelial cells followed by intra-epidermal T-cell activation. J Invest Dermatol. 1990;95:35S-37S.

Our study demonstrates that progressive psoriatic lesions harbor significant number of proliferating T-cells. Therefore, the skin of psoriatic patients can operate as a lymphoid organ. These results do not conflict with the literature data. Local activation of T-cells is considered to be an important feature of psoriatic skin lesions. Pro-inflammatory cytokine IL17A, being secreted by Th17 cells, is capable to initiate the formation of ectopic lymphoid organs upon chronic inflammation.¹¹11 Rangel-Moreno J, Carragher DM, de la Luz Garcia-Hernandez M, Hwang JY, Kusser K, Hartson L, et al. The development of inducible bronchus-associated lymphoid tissue depends on IL-17. Nat Immunol. 2011;12:639-46.^,¹²12 Mebius RE. Organogenesis of lymphoid tissues. Nat Rev Immunol. 2003 Apr;3:292-303. IL17A stimulates the release of chemokines CXCL13 and CCL19 by fibroblasts and induces the development of lymphoid follicles; the neutralization of IL17A leads to reduction of the size of ectopic lymphoid foci.¹¹11 Rangel-Moreno J, Carragher DM, de la Luz Garcia-Hernandez M, Hwang JY, Kusser K, Hartson L, et al. The development of inducible bronchus-associated lymphoid tissue depends on IL-17. Nat Immunol. 2011;12:639-46.^,¹³13 Korn T1, Bettelli E, Oukka M, Kuchroo VK. IL-17 and Th17 cells. Annu Rev Immunol. 2009;27:485-517. It was also shown that dendritic cells derived from psoriatic plaques induce in vitro proliferation of T-lymphocytes more effectively than either psoriatic blood-derived or normal skin-derived dendritic cells.¹⁴14 Nestle FO, Turka LA, Nickoloff BJ. Characterization of dermal dendritic cells in psoriasis: autostimulation of T lymphocytes and induction of Th1 type cytokines. J Clin Invest. 1994;94:202-9.

The formation of the ectopic foci of lymphoid tissue, which resemble lymphoid follicles, is characteristic for the tissues suffering from chronic inflammation. These foci are usually referred to as tertiary lymphoid organs (TLO). Unlike the lymph nodes, TLO are not encapsulated and therefore engaged in direct interaction with the neighboring tissues. TLO are a landmark of many autoimmune diseases and related conditions, being observed in inflammatory tissues from patients with rheumatoid arthritis, Hashimoto's thyroiditis, recipients of transplanted organs, etc.¹⁵15 Armengol MP, Cardoso-Schmidt CB, Fernández M, Ferrer X, Pujol-Borrell R, Juan M, et al. Chemokines determine local lymphoneogenesis and a reduction of circulating CXCR4+ T and CCR7 B and T lymphocytes in thyroid autoimmune diseases. J Immunol. 2003;170:6320-8.

16 Rangel-Moreno J, Hartson L, Navarro C, Gaxiola M, Selman M, Randall TD. et al. Inducible bronchus-associated lymphoid tissue (iBALT) in patients with pulmonary complications of rheumatoid arthritis. J Clin Invest. 2006;116:3183-94.^-¹⁷17 Nasr IW, Reel M, Oberbarnscheidt MH, Mounzer RH, Baddoura FK, Ruddle NH, et al. Tertiary lymphoid tissues generate effector and memory T-Cells that lead to allograft rejection. Am J Transplant. 2007;7:1071-9.

CONCLUSION

Our results suggest that the formation of the cellular infiltrate in the skin of patients with psoriasis may occur not only through migration of the immune cells from the peripheral blood, but also by intradermal T-Cell proliferation. Moreover, we found that an excess of CD45RO⁺ T-cells persists in the regressed psoriatic plaques (i.e., in the seemingly intact skin) in psoriatic patients at remission. These memory T-cells may remain silent for some periods of time, but become activated upon various stimuli and trigger the development of psoriatic lesion. The existence of the intradermal memory T-Cell explains why psoriatic plaques almost always relapse at the sites of the previously regressed lesions. Therapeutic targeting of the specific populations of silent intradermal T-cells appears to be a promising approach for prolonging remission of the disease in psoriatic patients.

Financial Support: Russian Foundation for Basic Research (grants 13-04-01786, 15-04-01744 and 16-04-0921)
*
Study conducted at the SM Kirov Military Medical Academy - St.-Petersburg, Russia.

References

¹
Christophers E. Psoriasis-epidemiology and clinical spectrum. Clin Exp Dermatol. 2001;26:314-20.
²
Perera GK, Di Meglio P, Nestle FO. Psoriasis. Annu Rev Pathol. 2012;7:385-422.
³
Tuettenberg A, Becker C, Correll A, Steinbrink K, Jonuleit H. Immune regulation by dendritic cells and T-Cells--basic science, diagnostic, and clinical application. Clin Lab. 2011;57:1-12.
⁴
Di Meglio P, Perera GK, Nestle FO. The multitasking organ: recent insights into skin immune function. Immunity. 2011;35:857-69.
⁵
Clement LT. Isoforms of the CD45 common leukocyte antigen family: markers for human T-cell differentiation. J Clin Immunol. 1992;12:1-10.
⁶
Owen CM, Chalmers RJ, O'Sullivan T, Griffiths CE. A systematic review of antistreptococcal interventions for guttate and chronic plaque psoriasis. Br J Dermatol. 2001;145:886-90.
⁷
Nestle FO, Kaplan DH, Barker J. Review article: Mechanisms of Disease. Psoriasis. N Engl J Med. 2009;361:496-509.
⁸
Orteu CH, Poulter LW, Rustin MH, Sabin CA, Salmon M, Akbar AN.. The role of apoptosis in the resolution of T-Cell-mediated cutaneous inflammation. J Immunol. 1998;161:1619-29.
⁹
Ralfkiaer E, Stein H, Bosq J, Gatter KC, Ralfkiaer N, Wantzin GL, et al. Expression of a cell cycle-associated nuclear antigen (Ki-67) in cutaneous lymphoid infiltrates. Am J Dermatopathol. 1986;8:37-43.
¹⁰
Nickoloff BJ, Griffiths CE. Lymphocyte trafficking in psoriasis: a new perspective emphasizing the dermal dendrocyte with active dermal recruitment mediated via endothelial cells followed by intra-epidermal T-cell activation. J Invest Dermatol. 1990;95:35S-37S.
¹¹
Rangel-Moreno J, Carragher DM, de la Luz Garcia-Hernandez M, Hwang JY, Kusser K, Hartson L, et al. The development of inducible bronchus-associated lymphoid tissue depends on IL-17. Nat Immunol. 2011;12:639-46.
¹²
Mebius RE. Organogenesis of lymphoid tissues. Nat Rev Immunol. 2003 Apr;3:292-303.
¹³
Korn T1, Bettelli E, Oukka M, Kuchroo VK. IL-17 and Th17 cells. Annu Rev Immunol. 2009;27:485-517.
¹⁴
Nestle FO, Turka LA, Nickoloff BJ. Characterization of dermal dendritic cells in psoriasis: autostimulation of T lymphocytes and induction of Th1 type cytokines. J Clin Invest. 1994;94:202-9.
¹⁵
Armengol MP, Cardoso-Schmidt CB, Fernández M, Ferrer X, Pujol-Borrell R, Juan M, et al. Chemokines determine local lymphoneogenesis and a reduction of circulating CXCR4⁺ T and CCR7 B and T lymphocytes in thyroid autoimmune diseases. J Immunol. 2003;170:6320-8.
¹⁶
Rangel-Moreno J, Hartson L, Navarro C, Gaxiola M, Selman M, Randall TD. et al. Inducible bronchus-associated lymphoid tissue (iBALT) in patients with pulmonary complications of rheumatoid arthritis. J Clin Invest. 2006;116:3183-94.
¹⁷
Nasr IW, Reel M, Oberbarnscheidt MH, Mounzer RH, Baddoura FK, Ruddle NH, et al. Tertiary lymphoid tissues generate effector and memory T-Cells that lead to allograft rejection. Am J Transplant. 2007;7:1071-9.

Publication Dates

Publication in this collection
Jan-Feb 2017

History

Received
06 Mar 2016
Accepted
01 Aug 2016

This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License which permits unrestricted non-commercial use, distribution, and reproduction in any medium provided the original work is properly cited.

[1] Financial Support: Russian Foundation for Basic Research (grants 13-04-01786, 15-04-01744 and 16-04-0921)

[2] *
Study conducted at the SM Kirov Military Medical Academy - St.-Petersburg, Russia.

Antibody	Cell marker	Antigen (clone)	Antibody dilution	Antigen unmasking	Manufacturer
CD3ε	T-cell	F7.2.38	1:600	Tris-EDTA buffer, pH 9,0	Thermo Fisher Scientific, USA
CD45RA	Naive T-cell	4KB5	1:200	Without processing	Thermo Fisher Scientific, USA
CD45RO	Effector/memory T-cell	UCHL1	1:150	Citrate buffer, pH 6,0	Dako, Denmark
Ki67	Proliferating cell	SP6	1:600	Tris-EDTA buffer, pH 9,0	Thermo Fisher Scientific, USA

Group	Patients with pro gressive psoriatic lesions (Pr)	Psoriasis patients in remission (R)	Healthy individuals (H)	p-value**
Group	Patients with pro gressive psoriatic lesions (Pr)	Psoriasis patients in remission (R)	Healthy individuals (H)	Pr vs R	Pr vs H	R vs H
Number of positive cells, Х (x0.25-x0.75)*: Ki67⁺	40 (22-54)	7 (4-13)	3 (2-6)	9.7 x 10-13	1.33 x 10-14	8.9 x 10-11
CD3ε⁺Ki67⁺ T-cells	12 (5-17)	2 (1-3)	0	3.3 x 10-15	1.3 x 10-14	2.2 x 10-5
CD45RA⁺ (naïve T-cells)	25 (15-30)	8 (3-11)	3 (1-4)	1.7 х 10-13	4.4 х 10-13	2.5 х 10-6
CD45RO⁺ (effector/memory T-cells)	208 (152-268)	59 (41-73)	15 (11-21)	3.5 х 10-11	6.7 х 10-14	2.8 х 10-8
Number of examined samples	41	18	16

Brasil

Brasil

The role of intradermal proliferation of T-cells in the pathogenesis of psoriasis^* * Study conducted at the SM Kirov Military Medical Academy - St.-Petersburg, Russia.

Abstract:

BACKGROUND:

OBJECTIVE:

METHODS:

RESULTS:

STUDY LIMITATIONS:

CONCLUSION:

INTRODUCTION

METHODS

Patients and biopsies

Antibodies and immunohistochemistry

RESULTS

DISCUSSION

CONCLUSION

References

Publication Dates

History

Brasil

Brasil

The role of intradermal proliferation of T-cells in the pathogenesis of psoriasis* * Study conducted at the SM Kirov Military Medical Academy - St.-Petersburg, Russia.

Abstract:

BACKGROUND:

OBJECTIVE:

METHODS:

RESULTS:

STUDY LIMITATIONS:

CONCLUSION:

INTRODUCTION

METHODS

Patients and biopsies

Antibodies and immunohistochemistry

RESULTS

DISCUSSION

CONCLUSION

References

Publication Dates

History

The role of intradermal proliferation of T-cells in the pathogenesis of psoriasis^* * Study conducted at the SM Kirov Military Medical Academy - St.-Petersburg, Russia.