Characterization of human foreskin Langerhans cells
Master Thesis
2021
Permanent link to this Item
Authors
Journal Title
Link to Journal
Journal ISSN
Volume Title
Publisher
Publisher
Faculty
License
Series
Abstract
Background: It is known that medical male circumcision (MMC) decreases HIV acquisition by up to 60%. One hypothesis is that MMC removes a foreskin (FS) that harbors different immune cells that are HIV target cells such as CD4+ macrophages, T, Langerhans (LCs), and dendritic cells (DCs). However, there have been different reports on whether the inner FS or outer FS has more HIV target cells. While LCs have been implicated in HIV transmission, their role remains controversial. Studies have shown that LCs can transmit the virus to T cells, which increases infection. On the contrary, others have reported that LCs prevent infection by degrading the virus through a langerin-dependent pathway. One of the factors that plays a major role in HIV transmission is their state of maturity and activation, which can be influenced by co-infection and other immunological processes. The aim of this study was to isolate, quantify and characterize Langerhans cells in the inner FS and outer FS from men undergoing MMC and to evaluate the phenotype of matured and activated LCS. Differences in the proteome of the inner FS and outer FS tissues were further investigated. Methodology: FS were obtained from men undergoing voluntary MMC from clinics and hospitals in the Western Cape (Age 18 years or older). Epidermal FS cells were extracted using crawl (migratory) assay and liberase enzyme digestion. Langerhans cells were isolated by density gradient centrifugation, sorted, quantified and immune-profiled by flow cytometry. CD1a and CD207 were used to identify Langerhans cells while HLA-DR, CD80, CD86 and CD40 were used as markers of maturity and activation. The gene expression profile of sorted LCs was also examined by single-cell sequencing with seq-well. Lastly, the differences in the proteome of the inner FS and the outer FS migrated epidermal cells were assessed using liquid chromatography with tandem mass spectrometry (LC-MS/MS). Results: Langerhans cells were an average of 85% pure post-sorting. The numbers of Langerhans cells between the inner FS vs. outer FS were not statistically different (mean: 0.56% vs. 0.68% (SD=0.37) from migratory cells and 0.28% vs. 0.45% (SD=0.18) from enzyme digest, p-value >0.05, n=9). Sequencing showed that the sorted cells pooled from 5 participants (inner and outer FS) had different gene expression profiles. Furthermore, two groups of cells were identified from the sorted LCs based on their gene expression profile. The identified cells were monocyte-like and melanocyte-like cells. The monocyte-like cells were identified as LCs based on their gene expression profile while the melanocyte-like cells were identified as the contaminating cells as the cell purity was not 100%. Upon activation with tumor necrosis factor alpha (TNF-α), activated LCs isolated by the migration assay had similar proportions of cells expressing surface maturity and activation markers (HLA-DR, CD40 and CD80/86) when compared to the unstimulated controls (inactivated) (mean: 73.53% vs. 75.66%, n=9, p-value >0.05, SD=4.4) However LCs that were isolated by the migration assay expressed markers of activation at a higher level compared to LCs isolated by Liberase enzyme digestion (mean: 79.4% vs. 40%, p-value < 0.05 n=9, SD=23). Proteomics showed that the inner FS had an over-abundance of proteins involved in the interleukin 7 response and mRNA catabolic processes, while the outer FS had more spindle zones and cornified envelope proteins that were over-abundant when comparing inner and outer FS from 5 participants. Discussion and Conclusion: The study successfully extracted, sorted and immunoprofiled Langerhans cells using different methods and from different FS compartments (inner FS versus outer FS). When LCs were spontaneously migrated and isolated using the “crawl method”, they showed a more mature and activated phenotype compared to non-migrating “skin resident” immune cells. No differences were found between cells that were stimulated with inflammatory cytokines relative to unstimulated migratory cells in proportion of cells expressing activation markers. However, it was observed that cells isolated by liberase enzyme digestion showed significantly lower proportions of activation markers relative to migratory cells. Using LC-MS/MS-based proteomics; the inner FS exhibited high expression of proteins involved in the interleukin 7 response while the outer FS exhibited high expression of structural proteins, which suggests that the inner FS might be more involved in immunity as interleukins can stimulate immune response while the outer FS has a more structural role than the inner FS.
Description
Keywords
Reference:
Qumbelo, Y. 2021. Characterization of human foreskin Langerhans cells. . ,Faculty of Health Sciences ,Department of Clinical Laboratory Sciences. http://hdl.handle.net/11427/36048