Project description:We performed RNA-sequencing of mouse cells derived from colony forming assays (CFA) to evaluate the transcriptome of MPN cells with deletion of the tumor suppressor STK11/LKB1 and relative controls. The CFA are from mouse primary floxed STK11 hematopoietic stem and progenitor cells (HSPCs) transduced with retroviruses encoding the MPN mutation MPLW515L and CRE recombinase to delete STK11.

Project description:Mutations in STK11/LKB1 in non-small cell lung cancer (NSCLC) are associated with poor patient responses to immune checkpoint blockade (ICB) and introduction of a Stk11/Lkb1 (L) mutation into murine lung adenocarcinomas driven by mutant Kras and Trp53 loss (KP) resulted in an ICB refractory syngeneic KPL tumor. Mechanistically this occurred because KPL mutant NSCLCs lacked TCF1-expressing CD8 T cells, a phenotype recapitulated in human STK11/LKB1 mutant NSCLCs. Systemic inhibition of Axl results in increased type I interferon secretion from dendritic cells that expanded tumor-associated TCF1+ PD-1+ CD8 T cells, restoring therapeutic response to PD-1 ICB for KPL tumors. This was observed in syngeneic immunocompetent mouse models and in humanized mice bearing STK11/LKB1 mutant NSCLC human tumor xenografts. NSCLC patients with identified STK11/LKB1 mutations receiving bemcentinib and pembrolizumab demonstrated objective clinical response to combination therapy. We conclude that AXL is a critical targetable driver of immune suppression in STK11/LKB1 mutant NSCLC.

Project description:Germline mutations in LKB1 (STK11) are associated with the Peutz–Jeghers syndrome (PJS), which includes aberrant mucocutaneous pigmentation, and somatic LKB1 mutations occur in 10% of cutaneous melanoma. By somatically inactivating Lkb1 with K-Ras activation (+/- p53 loss) in murine melanocytes, we observed variably pigmented and highly metastatic melanoma with 100% penetrance. LKB1 deficiency resulted in increased phosphorylation of the SRC-family kinase (SFK) YES and the subsequent expansion of a CD24+ cell population which showed increased metastatic behavior in vitro and in vivo relative to isogenic CD24- cells. These results suggest that LKB1 inactivation in the context of RAS activation facilitates metastasis by inducing a SFK-dependent expansion of a pro-metastatic, CD24+ tumor sub-population reference x sample

Project description:LKB1 deficiency in Treg cells impairs their survival, metabolism and suppressive function. To exclude the impact of excessive inflammation on LKB1-deficient Treg cells, we generated mixed bone marrow (BM) chimeras using Foxp3-Cre WT and Foxp3-Cre Stk11 fl/fl BM cells, together with CD45.1+ BM cells. We used microarray to compare the global transcription profile of dornor-derived LKB1-deficient Tregs with WT counterparts.

Project description:STK11/LKB1 and KEAP1 mutations are associated with immunotherapy resistance. We employed KRAS syngeneic mouse cells (K) and generated KEAP1 loss (KK) or STK11/KEAP1 loss (KLK) by CRISPR/KO. Then we injected these tumor cells and collected the tumor for single-cell RNA-seq. Our aim is to analyze the impact of STK11 and/or KEAP1 deficiency on the immune microenvironment.

Project description:Germline mutations in LKB1 (STK11) are associated with the Peutz–Jeghers syndrome (PJS), which includes aberrant mucocutaneous pigmentation, and somatic LKB1 mutations occur in 10% of cutaneous melanoma. By somatically inactivating Lkb1 with K-Ras activation (+/- p53 loss) in murine melanocytes, we observed variably pigmented and highly metastatic melanoma with 100% penetrance. LKB1 deficiency resulted in increased phosphorylation of the SRC-family kinase (SFK) YES and the subsequent expansion of a CD24+ cell population which showed increased metastatic behavior in vitro and in vivo relative to isogenic CD24- cells. These results suggest that LKB1 inactivation in the context of RAS activation facilitates metastasis by inducing a SFK-dependent expansion of a pro-metastatic, CD24+ tumor sub-population

Project description:Analysis of gene expression in LKB1(Stk11)-depleted sciatic nerves (LKB1-SCKO) vs control nerves from age-matched mice. Gene expression profiles are predominantly derived from Schwann cell glia and provide important information about the response of peripheral nerve Schwann cells to inactivation of the metabolic regulator protein LKB1(aka Stk11). Total RNA obtained from sciatic nerve segments from 6 LKB1-SCKO mutant mice compared to RNA from nerve segments from 6 control mice (floxed LKB1 mutant mice that do not express Cre recombinase).

Project description:STK11/LKB1 mutation is a primary driver for immunotherapy resistance. We employed KRAS/LKB1 syngeneic mouse models by injecting tumor cells with Kras mutation, Kras/Stk11 mutation and MCT4 knockout. We used single-cell RNA-seq to analyze the impact of LKB1 deficiency on the immune microenvironment.

Project description:Analysis of gene expression in LKB1(Stk11)-depleted sciatic nerves (LKB1-SCKO) vs control nerves from age-matched mice. Gene expression profiles are predominantly derived from Schwann cell glia and provide important information about the response of peripheral nerve Schwann cells to inactivation of the metabolic regulator protein LKB1(aka Stk11).

Project description:Philadelphia-chromosome negative myeloproliferative neoplasms (MPNs) including polycythemia vera, essential thrombocythemia and primary myelofibrosis show an inherent tendency for transformation into leukemia (MPN-blast phase), which is hypothesized to be accompanied by acquisition of additional genomic lesions. We, therefore, examined chromosomal abnormalities by high-resolution single-nucleotide polymorphism (SNP) array in 88 MPN patients, as well as 71 cases with MPN-blast phase, and correlated these findings with their clinical parameters. Frequent genomic alterations were found in MPN after leukemic transformation with up to 3-fold more genomic changes per sample compared to samples in chronic phase (p<0.001). We identified commonly altered regions involved in disease progression including established targets (ETV6, TP53 and RUNX1), as well as new candidate genes on 7q, 16q, 19p and 21q. Moreover, trisomy 8 or amplification of 8q24 (MYC) was almost exclusively detected in JAK2V617F(-) cases with MPN-blast phase. Remarkably, copy-number neutral-loss of heterozygosity (CNN-LOH) on either 7q or 9p including homozygous JAK2V617F was related to decreased survival after leukemic transformation (p=0.01 and p=0.016, respectively). Our high density SNP-array analysis of MPN genomes in the chronic compared to leukemic stage identified novel target genes and provided prognostic insights associated with the evolution to leukemia. Keywords: SNP-chip