Neem Leaf Glycoprotein in immunoregulation of cancer.

Cancer is a disease having global consequences. Though several new strategies and treatments have been developed so far, they often come with malicious side effects and this paved ways for demand of naturally extracted/driven product as potent anti-cancer agent owing to their reduced toxicity and side effects. One such common Indian household plant Neem (Azadirachta Indica) and its extract have variegated immunomodulatory effects as anti-cancer agent. Neem Leaf Glycoprotein (NLGP) modifies immune cells present in the tumor surroundings as well as in the peripheral system, rather than directly attacking the cancer cells. NLGP acts as a natural immunomodulator showing several functions like sustained tumor growth regulation by stimulating central and effector memory cells as a vaccination adjuvant, normalization of angiogenic activities, controls hypoxia, improves immune evasion techniques as well as suppresses the activity of several immunological cells (Tregs, myeloid-derived suppressor cells, and tumor-associated macrophages) which promote tumor growth and metastasis in the tumor microenvironment (TME). NLGP prioritises type1 immune-microenvironment which consists of T-bet+IFN-γ-producing group 1 innate lymphoid cell (ILC) (ILC1 and natural killer cells), CD8+ cytotoxic T cells (TC1), and CD4+ T helper1 (Th1) cells. In this review we aim to summarize detailed activity of NLGP in cancer immunoregulation.

Involvement of Xeroderma Pigmentosum Complementation Group G (XPG) in epigenetic regulation of T-Helper (TH) cell differentiation during breast cancer.

TNFα and IFN-γ secreted by CD4+T-Helper (TH) cells have antitumor activity followed by polarisation of TH1 phenotype in response to IL-12 secreted by dendritic cells, inducing expression of XPG, Nucleotide-Excision Repair (NER) complex component, which is downregulated in breast cancer. Therefore, we investigated the involvement of XPG in TH-cell differentiation in breast cancer. XPG knock-out (KO) PBMC and TH1 polarised CD4+ TH-cells isolated from breast cancer and control subjects blood samples were used to observe mRNA expressions of associated genes, % enrichment of corresponding epigenetic markers, and m6A RNA methylation levels to study the molecular mechanisms involved. Assays to investigate Cytotoxic T Lymphocyte (CTL) activity after cross-checking extracellular secretion levels. Our XPGKO results indicated upregulation of TH2 and Treg, downregulation of TH1, and negligible change for TH17; reduced expression of genes associated with tumour suppression (TP53, BRCA1) and DNA repair (H2AFX, ATM) for breast cancer TH-cells. CTCF associated TH1 specific function, reduced %enrichment of XPG, CSA, and ERCC1, increased %enrichment of γH2A.X, and altered histone modifications (methylation, deacetylation) at the IFN-γ gene locus in XPGKO breast cancer TH1-cells. Increased m6A RNA methylation mediated by XPG leads to TH1 cell specificity, further inducing CTL activity by releasing extracellular IFG-γ, which activates CD8+ CTLs. This article explores the association of the vital NER protein, XPG with the epigenetic modifications behind TH1 cell differentiation, augmenting the expressions of TH1-network genes to evoke protective immunity in breast cancer.