Effect of HIV on thymic function before and after antiretroviral therapy in children

Studies were undertaken to investigate the role of the thymus in T cell reconstitution in human immunodeficiency virus (HIV)-infected children treated with antiretroviral therapy. Nine pediatric patients who acquired HIV perinatally were treated with multidrug combinations of antiretroviral agents. Plasma virus load and CD4+ and CD8+ T cell subsets were measured, and thymus function was measured by quantifying T cell receptor rearrangement excision circles in peripheral blood. Patients with virus loads remaining >400 RNA copies/mL plasma were classified as virologic nonresponders. Thymus function was initially decreased in all subjects. After antiretrovirus therapy, peripheral CD4+ T cells increased in all subjects. Thymus function was restored in 4 of 5 virologic responders but in only 1 of 4 virologic nonresponders. This suggests that HIV has an adverse effect upon thymic function in pediatric HIV infection. Potent antiretroviral therapy restores thymic function but is affected by the degree to which virus suppression is achieved.     

Pre-operative sentinel lymph node localization in breast cancer with superparamagnetic iron oxide MRI: the SentiMAG Multicentre Trial imaging subprotocol

Objective:

Sentinel lymph node biopsy (SLNB) with a superparamagnetic iron oxide (SPIO) tracer was shown to be non-inferior to the standard combined technique in the SentiMAG Multicentre Trial. The MRI subprotocol of this trial aimed to develop a magnetic alternative for pre-operative lymphoscintigraphy (LS). We evaluated the feasibility of using MRI following the administration of magnetic tracer for pre-operative localization of sentinel lymph nodes (SLNs) and its potential for non-invasive identification of lymph node (LN) metastases.

Methods:

Patients with breast cancer scheduled to undergo SLNB were recruited for pre-operative LS, single photon emission CT (SPECT)-CT and SPIO MRI. T₁ weighted turbo spin echo and T₂ weighted gradient echo sequences were used before and after interstitial injection of magnetic tracer into the breast. SLNs on MRI were defined as LNs with signal drop and direct lymphatic drainage from the injection site. LNs showing inhomogeneous SPIO uptake were classified as metastatic. During surgery, a handheld magnetometer was used for SLNB. Blue or radioactive nodes were also excised. The number of SLNs and MR assessment of metastatic involvement were compared with surgical and histological outcomes.

Results:

11 patients were recruited. SPIO MRI successfully identified SLNs in 10 of 11 patients vs 11 of 11 patients with LS/SPECT-CT. One patient had metastatic involvement of four LNs, and this was identified in one node on pre-operative MRI.

Conclusion:

SPIO MRI is a feasible technique for pre-operative localization of SLNs and, in combination with intraoperative use of a handheld magnetometer, provides an entirely radioisotope-free technique for SLNB. Further research is needed for the evaluation of MRI characterization of LN involvement using subcutaneous injection of magnetic tracer.

Advances in knowledge:

This study is the first to demonstrate that an interstitially administered magnetic tracer can be used both for pre-operative imaging and intraoperative SLNB, with equal performance to imaging and localization with radioisotopes.     

The HIV-1 reservoir in eight patients on long-term suppressive antiretroviral therapy is stable with few genetic changes over time

The source and dynamics of persistent HIV-1 during long-term combinational antiretroviral therapy (cART) are critical to understanding the barriers to curing HIV-1 infection. To address this issue, we isolated and genetically characterized HIV-1 DNA from naïve and memory T cells from peripheral blood and gut-associated lymphoid tissue (GALT) from eight patients after 4–12 y of suppressive cART. Our detailed analysis of these eight patients indicates that persistent HIV-1 in peripheral blood and GALT is found primarily in memory CD4⁺ T cells [CD45RO⁺/CD27(^+/−)]. The HIV-1 infection frequency of CD4⁺ T cells from peripheral blood and GALT was higher in patients who initiated treatment during chronic compared with acute/early infection, indicating that early initiation of therapy results in lower HIV-1 reservoir size in blood and gut. Phylogenetic analysis revealed an HIV-1 genetic change between RNA sequences isolated before initiation of cART and intracellular HIV-1 sequences from the T-cell subsets after 4–12 y of suppressive cART in four of the eight patients. However, evolutionary rate analyses estimated no greater than three nucleotide substitutions per gene region analyzed during all of the 4–12 y of suppressive therapy. We also identified a clearly replication-incompetent viral sequence in multiple memory T cells in one patient, strongly supporting asynchronous cell replication of a cell containing integrated HIV-1 DNA as the source. This study indicates that persistence of a remarkably stable population of infected memory cells will be the primary barrier to a cure, and, with little evidence of viral replication, this population could be maintained by homeostatic cell proliferation or other processes.Combinational, antiretroviral therapy (cART) effectively suppresses but does not eradicate HIV-1 infection (1). Persistent low-level HIV-1 can still be detected in plasma (2–7) and cellular reservoirs (8–10) even after several years of suppressive cART, and cessation of current treatments invariably results in resumption of viral replication. Resting-memory CD4⁺ T cells are a well-defined reservoir of HIV-1, and the reservoir is established when an activated CD4⁺ T cell becomes infected by HIV-1 but transitions to a resting state (9) or perhaps when resting cells are infected directly (11–13). Central and transitional memory T cells have recently been identified as major contributors to the HIV-1 reservoir in the memory T-cell population (14). Naïve T cells have also been demonstrated to contain HIV-1 DNA in patients on suppressive therapy, although at a lower infection frequency than the memory T-cell population (15). In addition, many other cell types, including monocyte/macrophages, have been proposed to play a role in HIV-1 persistence (reviewed in ref. 16). These long-lived HIV-1–infected cells have been detected in peripheral blood. Several studies, however, suggest that the reservoir is largely established and maintained in lymphoid tissues, and that the infected cells circulating in blood may not be representative of the population of infected cells in tissue. For example, the majority of lymphocytes are sequestered in the gastrointestinal tract, and gut-associated lymphoid tissue (GALT) has been shown to be a major viral reservoir in patients on suppressive antiretroviral therapy (17–22).In addition to the persistence of long-lived, latently infected cells, low-level viral replication has been proposed as a mechanism that maintains HIV-1 during cART. If complete viral replication cycles persist, despite suppressive antiretroviral therapy, this would lead to de novo cellular infection and a constant replenishment of the viral reservoir. Investigations into whether HIV-1 replication continues during suppressive therapy have been carried out with peripheral blood and GALT samples but have led to potentially contradictory results. Some studies have found an absence of genetic evolution in viral reservoirs (23–29) and no reduction of plasma RNA during intensification of cART (30, 31), suggesting that cART is effective in preventing viral replication in these anatomical sites. In contrast, increased numbers of 2-long terminal repeat circles in peripheral blood mononuclear cells and decreased amounts of unspliced HIV-1 RNA in CD4⁺ T cells isolated from the terminal ileum have been reported during raltegravir intensification, supporting the concept that some viral replication can occur despite suppressive cART (32, 33). Thus, the role of on-going replenishment via cycles of replication as a cause of persistence is not fully understood.To investigate the source and dynamics of HIV-1 reservoirs in peripheral blood and GALT, we sorted and genetically characterized intracellular HIV-1 from subsets of memory T cells, naïve T cells, and myeloid cells from these two compartments from eight patients who had been on suppressive therapy with undetectable viral loads (<40–75 copies/mL) for 4–12 y: five who initiated therapy during acute/early infection and three who initiated therapy during chronic infection. Our aim was to investigate the nature of the infected cell population during cART and explore the role of HIV-1 replication, as reflected by nucleotide sequence substitutions in maintaining this reservoir. Our study revealed that both memory T cells and naïve T cells harbor HIV-1 DNA after long-term suppressive therapy, and the infection frequency of these T cells was higher in patients treated during chronic infection compared with patients treated during early infection. In-depth phylogenetic analysis revealed little or no change in viral structure or divergence over time within the viral sequences isolated from the different T-cell populations compared with sequences isolated from plasma collected just before initiation of cART, indicating lack of on-going replication during long-term suppressive therapy.     

Diabetes in the parents of children with Type I diabetes

Aims/hypothesis. Previous studies have reported an excess of Type II (non-insulin-dependent) diabetes mellitus in parents of children with Type I (insulin-dependent) diabetes mellitus. We set out to characterise the clinical and immunogenetic features of diabetes in parents of affected children, and to test the hypothesis that there is no excess of Type II diabetes within this population. Methods. Clinical details were collected from 3164 parents of 1641 children with Type I diabetes participating in the Bart's-Oxford study of childhood diabetes. Islet cell antibodies, antibodies to GAD and IA-2, and HLA class II genotype were determined in a subset of this group. Individuals were assigned a classification of Type I diabetes on the basis of clinical features and measurement of islet autoantibodies. Results. Of 184 parents with diabetes, 138 (75 %) were on insulin. At least one islet autoantibody was detected in 90 (59 %) of 152 parents tested, and of 116 who were HLA-typed, 23 (20 %) had the highest risk genotype HLA-DRB1^*03-DQA1*0501-DQB1^*0201 / DRB1*04-DQA1^*0301-DQB1*0302. Of 46 non-insulin-treated parents, 12 had islet autoantibodies. Of all parents, 141 (4.5 %) were therefore classified as having Type I diabetes, and 31 (0.98 %) as Type II diabetes; 12 could not be classified because of missing data or samples. Conclusion/interpretation. Autoimmune diabetes can present late and without immediate need for insulin treatment in parents of children with the disease. Previous studies have categorised this as Type II diabetes. Our study suggests that there is no excess of non-autoimmune diabetes in the families of children with Type I diabetes. [Diabetologia (2002) 45: ▪–▪] Received: 7 November 2001 and in revised form: 3 January 2002     

Early reconstitution of the T-cell repertoire after non-myeloablative peripheral blood stem cell transplantation is from post-thymic T-cell expansion and is unaffected by graft-versus-host disease or mixed chimaerism

To study immune recovery after non-myeloablative, reduced-intensity stem cell allografts (NST) and T-cell-depleted myeloablative transplants (TCD), we measured T-cell subset recovery by flow cytometry, T-cell repertoire by spectratyping and thymic T-cell output using a T-cell receptor excision circle (TREC) assay. We found a rapid and comparable increase in lymphocyte numbers in both NST and TCD, supporting the presence of a powerful drive for lymphocyte recovery after transplant. Spectratyping on d 45 and 100 revealed almost complete normalization of the T-cell repertoire in NST patients by d 45, whereas TCD patients demonstrated marked skewing of the repertoire, persisting to d 100. After NST, there was a significantly higher number of TREC-positive CD4+ and CD8+ cells (P = 0.02 and P = 0.01 respectively). However, in both NST and TCD, early T-cell recovery after transplant appeared to result entirely from post-thymic T cells, the expansion pattern of which is most influenced by the starting T-cell dose, but not markedly by graft-versus-host disease (GVHD) or mixed chimaerism. These results define important qualitative differences in the T-cell repertoire according to the type of transplant schedule used.     

High avidity myeloid leukemia-associated antigen-specific CD8+ T cells preferentially reside in the bone marrow

The activity of allogeneic CD8(+) T cells specific for leukemia-associated antigens (LAAs) is thought to mediate, at least in part, the curative effects of hematopoietic stem cell transplantation (HSCT) in myeloid malignancies. However, the identity and nature of clinically relevant LAA-specific CD8(+) T-cell populations have proven difficult to define. Here, we used a combination of coreceptor-mutated peptide-major histocompatibility complex class I (pMHCI) tetramers and polychromatic flow cytometry to examine the avidity profiles, phenotypic characteristics, and anatomical distribution of HLA A*0201-restricted CD8(+) T-cell populations specific for LAAs that are over-expressed in myeloid leukemias. Remarkably, LAA-specific CD8(+) T-cell populations, regardless of fine specificity, were confined almost exclusively to the bone marrow; in contrast, CD8(+) T-cell populations specific for the HLA A*0201-restricted cytomegalovirus (CMV) pp65(495-503) epitope were phenotypically distinct and evenly distributed between bone marrow and peripheral blood. Furthermore, bone marrow-resident LAA-specific CD8(+) T cells frequently engaged cognate antigen with high avidity; notably, this was the case in all tested bone marrow samples derived from patients who achieved clinical remission after HSCT. These data suggest that concomitant examination of bone marrow specimens in patients with myeloid leukemias might yield more definitive information in the search for immunologic prognosticators of clinical outcome.     

Vaccination preserves CD4 memory T cells during acute simian immunodeficiency virus challenge

Acute simian immunodeficiency virus (SIV)/human immunodeficiency virus infection is accompanied by a massive destruction of CD4 memory T cells across all the tissue compartments. These early events set the course toward disease progression and immunodeficiency. Here, we demonstrate that prior vaccination reduces this destruction during acute SIV Mac251 infection, leading to better survival and long-term outcome. Systemic vaccination with a DNA-prime recombinant adenovirus boost regimen preserved memory CD4 T cells throughout the body. The vaccine regimen induced broad CD4 and CD8 T cell responses in all tissues examined and, importantly, induced antibodies that neutralized the primary isolate of SIV used for challenge. Finally, we demonstrate that the extent of preservation of the CD4 memory compartment during the acute phase provides a strong predictor for subsequent progression to death. Our data provide a mechanism to explain clinical observations that acute-phase viral loads predict long-term disease progression and underscore the need for interventions that protect against early destruction of CD4 memory T cells during acute infection.     

Acquisition of direct antiviral effector functions by CMV-specific CD4+ T lymphocytes with cellular maturation

The role of CD4+ T cells in the control of persistent viral infections beyond the provision of cognate help remains unclear. We used polychromatic flow cytometry to evaluate the production of the cytokines interferon (IFN)-gamma, tumor necrosis factor (TNF)-alpha, and interleukin (IL)-2, the chemokine macrophage inflammatory protein (MIP)-1beta, and surface mobilization of the degranulation marker CD107a by CD4+ T cells in response to stimulation with cytomegalovirus (CMV)-specific major histocompatibility complex class II peptide epitopes. Surface expression of CD45RO, CD27, and CD57 on responding cells was used to classify CD4+ T cell maturation. The functional profile of virus-specific CD4+ T cells in chronic CMV infection was unique compared with that observed in other viral infections. Salient features of this profile were: (a) the simultaneous production of MIP-1beta, TNF-alpha, and IFN-gamma in the absence of IL-2; and (b) direct cytolytic activity associated with surface mobilization of CD107a and intracellular expression of perforin and granzymes. This polyfunctional profile was associated with a terminally differentiated phenotype that was not characterized by a distinct clonotypic composition. Thus, mature CMV-specific CD4+ T cells exhibit distinct functional properties reminiscent of antiviral CD8+ T lymphocytes.