Mitochondrial DNA content: A new biomarker for sudden intrauterine unexplained death syndrome (SIUDS)

Sudden Intrauterine Unexplained Death (SIUD) and Oxidative Stress: Placental Immunohistochemical Markers

BACKGROUND

Intrauterine fetal death and perinatal death represent one of the most relevant medical scientific problems since, in many cases, even after extensive investigation, the causes remain unknown. The considerable increase in medical legal litigation in the obstetrical field that has witnessed in recent years, especially in cases of stillborn births, has simultaneously involved the figure of the forensic pathologist in scientific research aimed at clarifying the pathophysiological processes underlying stillbirth.

METHODS

our study aims to analyze cases of sudden intrauterine unexplained death syndrome (SIUD) to evaluate the role of oxidative stress in the complex pathogenetic process of stillbirth. In particular, the immunohistochemical expression of specific oxidative stress markers (NOX2, NT, iNOS, 8-HODG, IL-6) was evaluated in tissue samples of placentas of SIUDs belonging to the extensive case series (20 cases), collected from autopsy cases of the University of Ferrara and Politecnica delle Marche between 2017 and 2023.

RESULTS

The study demonstrated the involvement of oxidative stress in intrauterine fetal deaths in the placenta of the cases examined. In SIUD, the most expressed oxidative stress markers were NOX2 and 8-HODG.

CONCLUSIONS

The study contributes to investigating the role of oxidative stress in modulating different pathways in unexplained intrauterine fetal death (SIUD) tissues.

Mitochondrial DNA content: a new potential biomarker for Sudden Infant Death Syndrome

BACKGROUND

Sudden Infant Death Syndrome (SIDS) occurs in apparently healthy infants and is unpredictable and unexplained despite thorough investigations and enormous research efforts. The hypothesis tested in this case-control study concerns mitochondrial involvement in SIDS occurrence.

METHODS

Mitochondrial DNA content (MtDNAcn) was measured in 24 SIDS cerebral cortex samples and 18 controls using real-time PCR.

RESULTS

The median (interquartile range) mtDNAcn in SIDS and controls was 2578 (2224-3838) and 1452 (724-2517) copies per nuclear DNA, respectively (P = 0.0001). MtDNAcn values were higher in SIDS victims born to non-smoking parents (n = 7) 4984 (2832-6908) compared to the controls (n = 5) 2020 (478-2386) (P = 0.006). Increased levels of mtDNAcn have been observed in the SIDS cases with mild defects in nuclei not essential for life compared to those found in SIDS cases with severe alterations of respiratory function (P = 0.034) 3571 (2568-5053) (n = 14) 2356 (1909-3132) (n = 8), respectively.

CONCLUSIONS

Our study revealed for the first time higher mtDNAcn in the cerebral cortex of the SIDS cases than the controls, indicating metabolic alterations. MtDNAcn plays an important role in compensatory mechanisms against environmental factors affecting human health. Despite the small sample size, mtDNA may prove to be a potential forensic biomarker for autopsied SIDS victims for gaining new insights into the etiology of SIDS.

IMPACT

Mitochondrial DNA content evaluated in cerebral cortex samples is higher in SIDS victims than controls. These results represent a novel line of investigation for the etiology of SIDS and could have a significant role in the compensatory mechanism due to environmental factors affecting human health. These findings suggest that the mitochondria are involved in SIDS: mtDNA content may represent a biomarker of this syndrome.

Associations of mitochondrial DNA copy number and deletion rate with early pregnancy loss

Early pregnancy loss (EPL) is a common event worldwide. Previous studies show that mitochondrial DNA (mtDNA) copy number (CN) is associated with semen parameters and preimplantation embryo viability, indicating the predictive potential of mtDNA CN for ongoing pregnancy outcomes. However, no relevant study has assessed the relationship between mtDNA CN and EPL. Thus, we aimed to determine whether mtDNA CN and mtDNA 4977-bp deletion rate (DR) in chorionic villous tissue are associated with EPL. Chorionic villous tissue total DNA was extracted from 75 EPL cases and 75 healthy controls. Chromosomal analysis was conducted using copy number variation (CNV) sequencing. The mtDNA CN and DR were measured in samples without pathogenic CNVs. The association between mtDNA CN or DR and EPL risk were estimated using logistic regression. The EPL group had a significantly different mtDNA CN (P < 0.001) and DR (P = 0.005) compared to the control group. Both biomarkers were independent risk factors for EPL (CN odds ratio 1.71, 95% confidence interval 1.17 to 2.49, P = 0.005; DR odds ratio 1.07, 95% confidence interval 1.02 to 1.12, P = 0.006). These results suggest that higher mtDNA CN and DR levels are strongly associated with EPL and represent independent risk factors for EPL. Further studies validating these findings and exploring the underlying biological mechanisms are warranted.