Project description:Accurate estimation of the postmortem interval is critical in forensic investigations to determine the time since death. While traditional methods offer limited precision, molecular approaches based on gene expression have shown promise. mRNA retains detectable and quantifiable expression changes that reflect biological processes occurring after death. In this study, we analyzed the transcriptome of rat skeletal muscle at 0 hours (control) and 48 hours of post mortem interval to identify differentially expressed mRNAs that may serve as potential biomarkers, aiming to enhance the accuracy and reliability of PMI estimation in forensic science. Microarray analysis using the Affymetrix Clariom S Rat array (Affymetrix) facilitated a comprehensive overview of the skeletal muscle transcriptome at 48 hours of postmortem interval. This platform allowed for the simultaneous quantification of thousands of transcripts, revealing widespread gene expression alterations associated with the postmortem interval. The resulting transcriptomic profile not only provided insight into molecular changes occurring after death but also highlighted specific mRNAs as potential biomarker candidates for PMI estimation in forensic contexts.

Project description:The post-mortem interval (PMI) is the time that elapses since the death of an individual until the body is found. Different molecules have been analyzed to better estimate the PMI with variable results. The miRNAs draw attention in the forensic field to estimate the PMI, since they can better support degradation. To find potential biomarkers for PMI estimation, we analyzed the miRNome at early PMI in rat skeletal muscle using the Affymetrix GeneChip™ miRNA 4.0 micoarrays. In this dataset, we include the expression of 1218 rat miRNAs at early postmortem interval.

Project description:Bone is a long-lasting biological tissue often used in forensic investigations as it retains vital biomolecular information commonly used for identification purposes. Bone proteins have attracted interest for their potential in estimating post-mortem interval (PMI) and age-at-death (AAD). However, the preservation of such proteins is highly dependent on intrinsic and extrinsic factors, and these have an impact in the potential application of molecular techniques to forensic sciences. The present study aims at investigating the effect that two commonly used types of burial practices (entombment and inhumation) have on bone protein survival. The sample consists in 14 exhumed individuals from cemeteries in south of Italy at with different AADs (29-85 yeas) and PMIs (1-37 years). LC-MS/MS analyses show that 16 proteins are better preserved in the entombed condition and four in the inhumated one, while no clear cluster separation is detected with principal component analysis. Besides the different burial environments, several potential protein markers are identified for PMI and AAD estimation. Overall, preliminary results show that the two burial environments seem to play a marginal role in the differential preservation of non-collagenous proteins and in the accumulation of post-translational modifications, confirming the potential of LC-MS/MS based proteomics in forensic sciences.

Project description:<p><strong>INTRODUCTION:</strong> Application of metabolomic methods to forensic studies may expand the limits of the post-mortem interval (PMI) estimation, and improve the accuracy of the estimation. To this end, it is important to determine which tissue is the most suitable for analysis, and which compounds are the most promising candidates for PMI estimation.</p><p><strong>OBJECTIVES:</strong> This work is aimed at the comparison of human serum, aqueous humor (AH), and vitreous humor (VH) as per- spective tissues for metabolomic-based PMI estimation, at the determination of most promising PMI biomarkers, and at the development of method of PMI estimation based on the measurement of concentrations of PMI biomarkers.</p><p><strong>METHODS:</strong> Quantitative metabolomic pro ling of samples of the human serum, AH, and VH taken at di erent PMIs has been performed with the use of NMR spectroscopy.</p><p><strong>RESULTS:</strong> It is found that the metabolomic changes in anatomically isolated ocular&nbsp;uids are slower and smoother than that in blood. A good positive time correlation (Pearson coe cient r &gt; 0.5) was observed for several metabolites, including hypox- anthine, choline, creatine, betaine, glutamate, and glycine. A model for PMI estimation based on concentrations of several metabolites in AH and VH is proposed.</p><p><strong>CONCLUSIONS:</strong> The obtained results demonstrate that the metabolomic analysis of AH and VH is more suitable for the PMI estimation than that of serum. The compounds with good positive time correlation can be considered as potential PMI biomarkers.</p><p><br></p>

Project description:The estimation of the post-mortem interval (PMI) and the age-at-death (AAD) are crucial steps in the medico-legal investigation of unidentified human remains. Current methods to estimate PMI and AAD suffer from a lack of accuracy and objectivity, particularly when the remains are in an advanced state of decomposition. Recently, proteomics studies using animal models have identified potential biomarkers for PMI and AAD estimation. This study investigated the human bone proteome in four human body donors studied throughout decomposition outdoors. We compared different bone tissues (tibia and iliac crest) from body donors of known AAD, and compared bone samples taken shortly after death to bone samples upon complete skeletonization of the body. The effects of ageing phenomena (in vivo and post-mortem) and the surrounding environment on the variability and abundancy of the bone proteome were assessed.

Project description:This study investigates mRNA degradation in human dental pulp to explore its utility for estimating the late postmortem interval (LPMI). Morphological changes in pulp tissue at 0, 7, 14, 21 and 28 days postmortem were observed via HE staining, showing progressive cellular degradation. High-throughput sequencing of samples at 0, 7, and 21 days identified candidate mRNAs. Five mRNA biomarkers were obtained , namely SRSF5, FGFR1, ACADVL, FOS, and LRP1. Their expression levels at 0, 3, 7, 10, 14, 21 and 28 days were quantified using RT–qPCR with 18S rRNA as the reference gene. Results demonstrated a consistent decrease in all five mRNAs over time. Mathematical models correlating mRNA levels with LPMI were established. Multi-index models exhibited superior fitting accuracy and predictive performance compared to single-index models, as validated using samples from 10, 18 and 25 days postmortem intervals, indicating greater practical applicability. This approach provides a new direction for forensic LPMI estimation research and contributes to the development of forensic pathology.

Project description:The prostate gland is one of the last internal organs to deteriorate during human decomposition. However, the effect of postmortem interval (PMI) on the mRNA and lncRNA expression and splicing is yet to be investigated in detail. The current study aims to identify the functional role of postmortem gene induction and pathway activation in prostate tissues with respect to the PMI gradient. The cadaver samples that were used in this study were collected during forensic autopsies and preserved at -20°C within the morgue at the University of Pavia (Pavia, Italy). After RNA extraction, total RNA sequencing was performed on Illumina’s NovaSeq 6000 using paired-ended sequencing approach. StringTie was used to perform expression level for mRNAs and lncRNAs by calculating FPKM. Additionally, mRNAs/lncRNAs differential expression analysis was performed by DESeq2. rMATS (version 4.1.1) was used to identify alternative splicing events and analyze differential alternative splicing events between samples having high and low PMI. Pathway analysis of the differentially expressed genes demonstrated the enrichment of FoxO signaling, aldosterone-regulated sodium reabsorption and adipocytokine signaling pathways in prostate tissue with high PMI. Gene Set Enrichment Analysis (GSEA) indicated the positive enrichment of genes belonging from protein export, proteasome, ferroptosis, and citric acid cycle in high PMI group. A comprehensive detection of alternative splicing events (ASEs) at the cellular level in postmortem prostate tissue was performed to reveal skipped exon events to be most prominent ASE in high PMI group followed by retained intron events. Our study implies that the transcription machinery remains active in prostate tissue even after five days postmortem.

Project description:Estimation of chronological age is particularly informative in forensic contexts. Assessment of DNA methylation status allows for the prediction of age, though the accuracy may vary across models. In this study, we started with a carefully designed discovery cohort with more elderly subjects than other age categories, to diminish the effect of epigenetic drifting. We applied multiplexing and massive parallel sequencing of targeted DNA methylation, which let us to construct a model comprising 25 CpG sites with substantially improved accuracy (MAE=2.279, R=0.92). This model is further validated by an independent cohort (MAE=2.204, 82.7% success (±5 years)). Remarkably, in a multi-center test using trace blood samples from forensic caseworks, the correct predictions (±5 years) are 91.7%. The nature of our analytical pipeline can easily be scaled up with low cost. Taken together, we propose a new age-prediction model featuring accuracy, sensitivity, high-throughput, and low cost. This model can be readily applied in both classic and newly emergent forensic contexts that require age estimation.

Project description:Methods currently available to estimate the post-mortem submerged interval (PMSI) of cadavers in water suffer from poor accuracy, being mostly based on morphological examination of the remains. Proteins present within bones have recently attracted more attention from researchers interested in the estimation of the post-mortem interval (PMI) in terrestrial environments. Despite the great potential of proteomic methods for PMI estimation, their application to aquatic environments has not yet been explored. In this study, we examined whether four different types of aquatic environment (tap water, saltwater, pond water and chlorinated water) affected the proteome of mice bones with increasing PMSIs (from zero to three weeks).

Project description:Hidradenitis suppurativa (HS) is a debilitating inflammatory skin disease that progresses from superficial nodules in early stages to deep dermal tunnels, tertiary lymphoid structures (TLSs), and fibrosis in later stages. Interplays between dermal tunnel keratinocytes, TLSs, and fibroblasts promote pathogenic T-cell and B-cell inflammation in late-stage disease. However, whether T-cell and B-cell inflammation sequentially precedes or follows the late-stage structure formation is unclear. The study aims to elucidate the sequence of inflammation from early- to late-stage HS by comparing their single-cell transcriptomes with those of psoriasis. We analyzed gene expression differences between early-stage HS and late-stage HS using single-cell RNA sequencing. The result showed plasma cell expansion, multifunctional B-cells expressing pro-inflammatory cytokines, major histocompatibility complex molecules, and immunoglobulins in HS. Unlike in late-stage HS, T-cells were the primary producers of the B-cell chemoattractant CXCL13 in early-stage HS.