Chronic hepatitis B (CHB) is a transmissible disease that arise out of hepatitis B virus (HBV) infection.1 Syphilis is a chronic systemic sexually transmitted disease cause by Treponema pallidum (TP) infection.2 Since HBV and TP share the same bodily-fluid transmission routes, co-infection involving both viruses are very common. In an HBV/TP co-infection, the patient’s autoimmune system makes a series of immune responses to participate in the pathological process within the body, injuring and damaging liver cells. In this process, cellular immunity mediated by T lymphocyte subsets and relevant cytokines plays a key role.3 Studies have shown that HBV can produce inhibitory monocytes, initiate the regulation of NK cell differentiation, and induce NK cells to produce IL-10.4 Hepatitis B envelope antigen (HBeAg) is a viral protein released from liver cells into the blood during HBV replication by the pre-core regions and core regions of the virus genes. HBeAg+ indicates active replication of HBV.5 Relevant studies have shown that, pre-treatment HBeAg status can affect the long-term antiviral effect of patients with HIV/HBV co-infection.6 However, whether HBeAg status can affect the cellular immune function of patients with HBV/TP co-infection still needs further exploration. On this basis, the clinical data of 79 patients with HBV/TP co-infection were reviewed, after which the effects of different HBeAg statuses on the cellular immune function of patients with HBV/TP co-infection were explored and reported.
METHODS
The clinical data of 79 patients with HBV/TP co-infection admitted to our hospital from January 2019 to January 2020 were retrospectively analyzed. These patients were divided into two groups according to their HBeAg statuses before the treatment: 41 HBeAg+ patients were included in the HBeAg+ group, while 38 HBeAg- patients were included in the HBeAg- group. There were 24 male and 17 female patients in the HBeAg+ group; these patients aged 18-69, averaging (39.72±6.18) years; their body mass indices (BMIs) fell between 15.48 kg/m2 and 23.22 kg/m2, averaging (18.60±2.55) kg/m2; their courses of disease lied between six months and 20 months, averaging (12.54±2.31) months; 22 patients had a family history of HBV infection and 10 had a family history of TP infection; types of HBV infection included: CHB and chronic asymptomatic HBV, n = 13 and 28 respectively ; types of TP infection included: primary syphilis, secondary syphilis, early latent syphilis, and advanced latent syphilis, n = 11, 10, 16, and four respectively. There were 22 male and 16 female patients in the HBeAg- group; these patients aged 18-71, averaging (40.15±6.32) years; their BMIs fell between 15.23 kg/m2 and 23.54 kg/m2, averaging (18.72±2.68) kg/m2; the courses of disease lasted for 5-18 months, averaging (12.07±2.19) months; 20 patients had a family history of HBV infection and nine had a family history of TP infection; types of HBV infection included: CHB and chronic asymptomatic HBV, n = 11 and 27 respectively; types of TP infection included: primary syphilis, secondary syphilis, early latent syphilis, and advanced latent syphilis, n = 10, 9, 15, and 4 respectively. Also, the general data of patients between both groups showed no statistical difference (P > 0.05).
Ethical approval
The study was approved by the Institutional Ethics Committee of Baoding First Central Hospital, and written informed consent was obtained from all participants.
Inclusion criteria
patients who met the diagnostic criteria for HBV infection7; patients who meet the diagnostic criteria for TP infection8; patients in HBeAg+ group having had at least six months of HBeAg+; patients who received neither anti-viral nor immunoregulatory therapy before the inclusion into the study; patients who had complete clinical data.
Exclusion criteria
patients who also contracted hepatitis A, C, D, E viruses or other viruses; patients with liver injuries caused by alcohol and drug allergic poisoning; patients with autoimmune liver disease (AILD); patients with severe organ failures, including but not limited to the heart, lung, and kidney; patients with malignant tumors; patients who had received immunomodulatory therapy within the last 6 months; pregnant or lactating women; and patients with mental disorders, etc.3 mL PB was sampled from the patients upon admission, and then centrifuged at 3000 r/min for 5 min to separate the serum for DNA extraction. The serum HBV-DNA levels were measured using a Roche LightCycler 480 II Real Time PCR System via a real-time quantitative polymerase chain reaction (RT-PCR). The kit selected was the Power SYBR Green PCR Master Mix kit manufactured by the US-based ABI. All operations were carried out in strict accordance with the instructions provided within the kit.The levels of CD3+, CD4+, CD8+ T lymphocytes and natural killer (NK) cells in the PB were measured with monoclonal antibodies and Cytoflex flow cytometer (Beckman, USA). Analyses involving all recorded counts and statistics as well as CD4+/CD8+ calculations were carried out with FACSCanto. 3 mL PB was sampled from the patients and centrifuged at 3000r/min for five minutes to separate the serum. The levels of interferon-γ (IFN-γ), tumor necrosis factor (TNF-α), interleukin-2 (IL-2), interleukin-4 (IL-4), interleukin-6 (IL-6), interleukin-10 (IL-10), interleukin-17 (IL-17) and transforming growth factor-β (TGF-β) were detected via enzyme linked immunosorbent assay (ELISA) using a kit supplied by the US-based R&D. The instructions provided with the kit were strictly followed.
Observation indicators
(1) Comparison of HBV-DNA levels between both groups; (2) Comparison of T lymphocyte subset levels in PB between both groups; and (3) Comparison of cytokine levels in PB between both groups.
Statistical analysis
SPSS25.0 was used to process the statistics. The measurements were expressed in ““ and had their statistical significance determined using the t test. 0.05 was taken as the statistical significance threshold level.
RESULTS
HBV-DNA levels in the HBeAg+ group were significantly higher than those in the HBeAg- group (P < 0.05). Refer to Table-I for more details.The levels of CD3+, CD4+ and CD4+/CD8+T lymphocytes as well as NK cells in the HBeAg+ group were higher than those in the HBeAg- group, while the levels of CD8+T lymphocytes being lower than those in the HBeAg- group. The comparison was statistically significant (P < 0.05). Refer to Table-II for more details.
Table I
Comparison of HBV-DNA Levels between both Groups (x¯±s ).
Group
n
HBV-DNA (×106 copies/mL)
HBeAg+ group
41
38.92±6.13
HBeAg- group
38
20.77±3.41
t
16.086
P
0.000
Table II
Comparison of T Lymphocyte Subset Levels in PB between both Groups (x¯±s ).
Group
n
CD3+ (%)
CD4+ (%)
CD8+ (%)
NK (%)
CD4+/CD8+
HBeAg+ group
41
68.34±9.26
43.47±5.21
24.98±4.23
17.28±3.56
1.74±0.31
HBeAg- group
38
56.87±8.32
36.98±5.09
28.79±4.59
14.09±3.21
1.28±0.24
t
5.775
5.593
3.840
4.171
7.333
P
0.000
0.000
0.000
0.000
0.000
Comparison of HBV-DNA Levels between both Groups (x¯±s ).Comparison of T Lymphocyte Subset Levels in PB between both Groups (x¯±s ).
Comparison of cytokine levels in PB between both groups
The levels of IFN-γ, TNF-α, IL-2, IL-6, IL-17 and TGF-β in the HBeAg+ group were significantly higher than those in the HBeAg- group, showing statistically significant differences (P < 0.05). On the contrary, there was no statistical significance in the IL-4 and IL-10 levels between the HBeAg+ group and the HBeAg- group (P > 0.05). See Table-III.
Table IIIa
Comparison of Cytokine Levels in PB between both Groups (x¯±s ).
Group
n
IFN-γ (pg/mL)
TNF-α (pg/mL)
IL-2 (pg/mL)
IL-4 (pg/mL)
HBeAg+ group
41
173.53±19.98
21.81±4.22
124.33±16.48
60.73±7.63
HBeAg- group
38
148.09±17.74
16.03±2.35
98.67±13.29
58.36±7.12
t
5.966
7.439
7.581
1.424
p
0.000
0.000
0.000
0.158
Comparison of Cytokine Levels in PB between both Groups (x¯±s ).Comparison of Cytokine Levels in PB between both Groups (x¯±s ).
DISCUSSIONS
HBV belongs to the Hepadnaviridae family and is one of the most common and serious infectious diseases in the world. HBV infection may impair liver functions, and gradually develop into CHB, cirrhosis, liver cancer and other diseases.9 TP can enter the body through broken skin or mucous membranes and be transported to the whole body through the blood and lymphatic system to damage organs and tissues, ultimately resulting in functional loss and tissue necrosis.10 TP and HBV share similar infection routes. Therefore, the probability of co-infection between both is high. The co-infection, however, will accelerate the progression of cirrhosis in patients, which will cause serious harm to the physical and mental health of patients and increase the case fatality rate.11 HBeAg is a main protein in HBV’s core and is distributed in the blood and the whole body. HBeAg+ indicates that the virus is in an active replication state. Nevertheless, whether it affects and how it affects the cellular immune function of patients with HBV/TP co-infection are still unclear and need further study.In this study, the serum HBV DNA levels in the HBeAg+ group were higher than those in the HBeAg- group, indicating that HBeAg+ promotes the activity of HBV virus replication. It is generally recognized that sensitive indicators reflecting HBV replication include persistent HBeAg positive and elevated levels of HBV DNA. When HBeAg+ is detected in blood, it indicates that the HBV replicates in large numbers and is highly infectious.12 Studies have shown that high HBV DNA load is an independent factor of liver fibrosis and an independent predictor of significant liver necrosis inflammation. Furthermore, liver histological stage and grade were higher in patients with high HBV DNA load by stratification.13 The results of this study indicating that when HBeAg is positive, the virus replicates in large numbers. The levels of CD3+, CD4+ and CD4+/CD8+ T lymphocytes and NK cells in the HBeAg+ group were higher than those in the HBeAg- group, while the levels of CD8+T lymphocytes were lower than those in the HBeAg- group, indicating that HBeAg+ can enhance the levels of T lymphocyte subsets. HBeAg+ indicates active replication of HBV virus and elevated HBV DNA levels. The body strengthens its autoimmune system in response to a large number of viruses. After HBV infects the human body, it does not directly cause hepatocyte injury. Instead, it indirectly damage hepatocytes by inducing the cellular immunity mediated by T lymphocytes and a part of the cytokines. After HBV/TP invades the human body, autoimmunity is initiated, causing T cells to target and attack cells containing the virus. CD3+ T lymphocytes are peripheral mature T cells. CD4+ and CD8+ are directly associated with cellular immune function.14 CD4+ T lymphocytes are a kind of helper T cells, and play an important role in immune responses to the virus: on the one hand, they can activate and kill harmful cells; on the other hand, they can help B cells to produce antibodies and boost immunity. CD8+ T lymphocytes are a kind of inhibitory and lethal T cells that can inhibit the synthesis and secretion of antibodies, and are mainly used for cell cleanup. Under normal circumstances, CD4+/CD8+ levels are kept at a certain proportion to jointly maintain the body’s autoimmune stability.15 Activated NK cells can synthesize and secrete a variety of cytokines for immune regulation and directly killing target cells. A study16 showed that, the CD3+, CD4+ and CD4+/CD8+ in patients infected with HBV decrease significantly, while CD8+ and IL-6 increase significantly. The study also reported that T cells and IL-6 levels are closely correlated to disease type and HBV-DNA load. The findings acquired herein are similar to the reports above, indicating that the CD3+, CD4+ and CD4+/CD8+T cell levels change in HBeAg+ patients with HBV/TP co-infection.Moreover, in this study, the levels of most cytokines in the HBeAg+ group, such as IFN-γ, TNF-α, IL-2, IL-6, IL-17 and TGF-β, were higher than those in the HBeAg- group, while the IL-4 and IL-10 levels were equivalent to those in the HBeAg- group, indicating that HBeAg+ can promote patients with HBV/TP co-infection to secrete T lymphocyte-associated cytokines and involve it in the inflammatory reaction. Having contracted HBV/TP co-infection, the human body makes specific immune responses that trigger cellular immunity dominated by T lymphocytes. Cytokines are soluble small molecule polypeptides or glycoproteins produced and secreted by different immune cells, and are biological signals that play multiple functions in normal pathological and physiological processes.17 Having contracted HBV/TP, various immune cells may gather and be activated at the site of inflammation, inducing differentiation and proliferation of various cells, in turn releasing multiple cytokines to be involved in inflammatory and immune responses.18 As important mediators of inflammatory responses produced by hosts, cytokines are major players in T lymphocyte-mediated cellular immunity, and are involved in the occurrence and development of a variety of diseases. According to the variety of cytokines secreted, CD4+ T lymphocytes can be divided into T helper cell 1 (Th1), T helper cell 2 (Th2), T helper cell 17 (Th17) and regulatory T cells (Treg).19 Th1 cell-mediated cellular immunity is responsible for the body’s function in eliminating viruses. The cytokines secreted include IFN-γ, TNF-α and IL-2. Th2 cells kill virus-infected hepatocytes primarily through the cellular cytotoxicity of the immune cells, and mainly secrete such cytokines as IL-4 and IL-6. Th17 cells are helper T cells with proinflammatory effects, which demonstrate strong immunogenicity, and trigger the protective effects of immune response by immunoregulatory specific killing, blocking of signal pathway, etc.; their main effector cytokine is IL-17. Treg cells are regulatory T cells with anti-inflammatory effects; and their major immunity-triggering cytokines are IL-10 and TGF-β.20 When HBV replicates, the virus in the body proliferates, causing immune dysfunction. This intensifies the immune response, and stimulates the body to further enhance the response effects. At this point, immune cells secrete more cytokines, including TNF-α, IFN-γ, IL-6 and IL-17, to promote inflammatory reaction and enhance their immune function, at the expense of injuring and damaging liver cells and tissues. Previous studies have shown that, there are abnormal cytokine levels in the pathogenesis of HBV-associated nephritis in children. Therefore, combined monitoring of HBV-DNA and cytokines should be carried out during the treatment to dynamically evaluate the changes in condition and the therapeutic effects.21 The results of this study are close to the reports above, indicating that HBeAg+ triggers changes to the otherwise stable levels of T lymphocyte-associated cytokines in patients with HBV/TP co-infection.
CONCLUSION
To sum up, HBeAg+ enhances HBV replication in patients with HBV/TP co-infection, and stimulates the body to initiate T lymphocyte-mediated cellular immunity, increase the levels of T lymphocyte subsets, and promote the release of a variety of cytokines to be involved in the body’s antiviral immune response.
Authors’ Contributions:
WL &
HX: Designed this study and prepared this manuscript, and are responsible and accountable for the accuracy or integrity of the work;PZ: Collected and analyzed clinical data, significantly revised this manuscript.
Table IIIb
Comparison of Cytokine Levels in PB between both Groups (x¯±s ).
Authors: Carolina Boni; Harry L A Janssen; Marzia Rossi; Seung Kew Yoon; Andrea Vecchi; Valeria Barili; Eric M Yoshida; Huy Trinh; Timothy C Rodell; Diletta Laccabue; Arianna Alfieri; Federica Brillo; Paola Fisicaro; Greta Acerbi; Giuseppe Pedrazzi; Pietro Andreone; Carmela Cursaro; Marzia Margotti; Rosanna Santoro; Valeria Piazzolla; Maurizia R Brunetto; Barbara Coco; Daniela Cavallone; Yang Zhao; Adarsh Joshi; Jacky Woo; Audrey H Lau; Anuj Gaggar; G Mani Subramanian; Benedetta Massetto; Scott Fung; Sang Hoon Ahn; Xiaoli Ma; Alessandra Mangia; Carlo Ferrari Journal: Gastroenterology Date: 2019-03-28 Impact factor: 22.682
Authors: Elena Kokuina; Martha C Breff-Fonseca; Carlos A Villegas-Valverde; Isabel Mora-Díaz Journal: MEDICC Rev Date: 2019 Apr-Jul Impact factor: 0.583