What question did this study set out to answer?

This research aims to develop a microfluidic device for improved analysis of histone modifications in rare cancer cell samples.

January 22, 2026

Abstract A030: Lossless altered histone modification analysis system to investigate patient derived cancer organoids and circulating tumor cells from patients with prostate cancer

Key Points

This research aims to develop a microfluidic device for improved analysis of histone modifications in rare cancer cell samples.
Miniaturization of CUT&Tag assay using LAHMAS device for low input samples.
Patient-derived organoids and circulating tumor cells were utilized for epigenomic analysis.
Assessment of H3K27Me3 modifications alongside RNA sequencing for gene expression profiling.
LAHMAS device increased signal detection for low input chromatin samples.
Significantly higher FRiP scores were observed with microscale methods compared to macroscale (30.3% vs. 18.2%).
H3K27Me3 peaks were consistent from 3000 nuclei down to 50 nuclei, affirming the device's sensitivity.

Abstract

Abstract Introduction Aberrant histone modifications and chromatin structure alter gene expression that drive phenotypic and functional behavior of aggressive prostate cancer. Technological limitations have constrained comprehensive analyses of epigenomic alterations to less relevant immortalized cell lines and pre-clinical models, as many current epigenomic assay techniques require hundreds of thousands of cells, thus limiting interrogation of clinical samples. To facilitate rare cell epigenetic analysis in patient derived cancer organoids (PDCOs) and circulating tumor cells (CTCs) from patients with prostate cancer, we miniaturized the Cleavage Under Targets and Tagmentation (CUT5000. Methods: Organoids were grown from primary tumor samples from 3 patient undergoing prostatectomy. There were a total of 5 loci collected. These samples were digested to single cells prior to assessment in the Cut0. 0001) facilitating accurate chromatin profiling of low input and rare cell samples. H3K27Me3 peaks are conserved from 3000 down to 50 nuclei in cell line models on the LAHMAS device. We are evaluated H3K27Me3 histone modifications from PDCOs grown from prostatectomy samples from 3 patiens using the LAHMAS device. We obtained high quality results from these samples, obtaining yields (LNCaP: 0. 147-5. 15 median: 1. 13 vs. PDCO: 0. 144-5. 36 0. 445), and MACS2 FRiP scores (LNCaP: 1. 79-29. 91 median: 4. 91 vs. PDCO: 0. 73-10. 21 5. 76) similar to cell line sample. We have also leveraged the LAHMAS device to evaluate circulating tumor cells from a patient with prostate adenocarcinoma progressing on chemotherapy. This patient demonstrated high expression of ASCL1 (0 tpm) and low expression KLK3 (16237. 6 tpm) by RNAseq. Concordantly, we detected H3K27Me3 peaks at the promoter of ASCL1, consistent with the repression of transcription. Conclusions: The pairing of this LAHMAS microfluidic device with a highly sensitive CUT 2026 Jan 20-22; Philadelphia PA. Philadelphia (PA): AACR; Cancer Res 2026;86 (2Suppl): Abstract nr A030.

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Cite This Study

Kauffman et al. (Tue,) studied this question.

synapsesocial.com/papers/6971be2c642b1836717e2d4c https://doi.org/https://doi.org/10.1158/1538-7445.prostateca26-a030

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