Somatic Cell Epigenetic Reprogramming: Molecular Mechanisms and Therapeutic Potential

The effectiveness of somatic cell nuclear transfer (SCNT) in mammals seems to be still characterized by the disappointingly low rates of cloned embryos, fetuses, and progeny generated. These rates are measured in relation to the numbers of nuclear-transferred oocytes and can vary depending on the technique applied to the reconstruction of enucleated oocytes. The SCNT efficiency is also largely affected by the capability of donor nuclei to be epigenetically reprogrammed in a cytoplasm of reconstructed oocytes. The epigenetic reprogrammability of donor nuclei in SCNT-derived embryos appears to be biased, to a great extent, by the extranuclear (cytoplasmic) inheritance of mitochondrial DNA (mtDNA) fractions originating from donor cells. A high frequency of mtDNA heteroplasmy occurrence can lead to disturbances in the intergenomic crosstalk between mitochondrial and nuclear compartments during the early embryogenesis of SCNT-derived embryos. These disturbances can give rise to incorrect and incomplete epigenetic reprogramming of donor nuclei in mammalian cloned embryos. The dwindling reprogrammability of donor nuclei in the blastomeres of SCNT-derived embryos can also be impacted by impaired epigenetic rearrangements within terminal ends of donor cell-descended chromosomes (i.e., telomeres). Therefore, dysfunctions in epigenetic reprogramming of donor nuclei can contribute to the enhanced attrition of telomeres. This accelerates the processes of epigenomic aging and replicative senescence in the cells forming various tissues and organs of cloned fetuses and progeny. For all the above-mentioned reasons, the current paper aims to overview the state of the art in not only molecular mechanisms underlying intergenomic communication between nuclear and mtDNA molecules in cloned embryos but also intrinsic determinants affecting unfaithful epigenetic reprogrammability of telomeres. The latter is related to their abrasion within somatic cell-inherited chromosomes.

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Molecular Mechanisms and Therapeutic Potential of miR-493 in Cancer

Critical Reviews in Eukaryotic Gene Expression ◽

10.1615/critreveukaryotgeneexpr.2019030056 ◽

2019 ◽

Vol 29 (6) ◽

pp. 521-528

Author(s):

Lingli Huang ◽

Lingwei Huang ◽

Ziwei Li ◽

Qing Wei

Keyword(s):

Molecular Mechanisms ◽

Therapeutic Potential

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Neuroprotective Effects of Ellagic Acid in Alzheimer's Disease: Focus on Underlying Molecular Mechanisms of Therapeutic Potential

Current Pharmaceutical Design ◽

10.2174/1381612826666201112144006 ◽

2020 ◽

Vol 26 ◽

Author(s):

Nimra Javaid ◽

Muhammad Ajmal Shah ◽

Azhar Rasul ◽

Zunera Chauhdary ◽

Uzma Saleem ◽

...

Keyword(s):

Alzheimer’S Disease ◽

Alzheimer's Disease ◽

Ellagic Acid ◽

Molecular Mechanisms ◽

Neurodegenerative Disorder ◽

Therapeutic Potential ◽

Neuronal Cell Death ◽

Neuronal Cell ◽

Acetylcholinesterase Activity ◽

Neuroprotective Effects

: Neurodegeneration is a multifactorial process involved the different cytotoxic pathways that lead towards neuronal cell death. Alzheimer’s disease (AD) is a persistent neurodegenerative disorder that normally has a steady onset yet later on it worsens. The documented evidence of AD neuropathology manifested the neuro-inflammation, increased reactive oxygen, nitrogen species and decreased antioxidant protective process; mitochondrial dysfunction as well as increased level of acetylcholinesterase activity. Moreover, enhanced action of proteins leads towards neural apoptosis which have a vital role in the degeneration of neurons. The inability of commercial therapeutic options to treat AD with targeting single mechanism leads the attraction towards organic drugs. Ellagic acid is a dimer of gallic acid, latest studies expressed that ellagic acid can initiate the numerous cell signaling transmission and decrease the progression of disorders, involved in the degeneration of neurons. The influential property of ellagic acid to protect the neurons in neurodegenerative disorders is due to its antioxidant effect, iron chelating and mitochondrial protective effect. The main goal of this review is to critically analyze the molecular mode of action of ellagic acid against neurodegeneration.

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Classic and Novel Signaling Pathways Involved in Cancer: Targeting the NF-κB and Syk Signaling Pathways

Current Stem Cell Research & Therapy ◽

10.2174/1574888x13666180723104340 ◽

2019 ◽

Vol 14 (3) ◽

pp. 219-225 ◽

Cited By ~ 6

Author(s):

Cong Tang ◽

Guodong Zhu

Keyword(s):

Cancer Therapy ◽

Tyrosine Kinase ◽

Signaling Pathways ◽

Molecular Mechanisms ◽

Therapeutic Potential ◽

Cell Receptor ◽

Transmembrane Receptors ◽

Biological Responses ◽

Different Types

The nuclear factor kappa B (NF-κB) consists of a family of transcription factors involved in the regulation of a wide variety of biological responses. Growing evidence support that NF-κB plays a major role in oncogenesis as well as its well-known function in the regulation of immune responses and inflammation. Therefore, we made a review of the diverse molecular mechanisms by which the NF-κB pathway is constitutively activated in different types of human cancers and the potential role of various oncogenic genes regulated by this transcription factor in cancer development and progression. We also discussed various pharmacological approaches employed to target the deregulated NF-κB signaling pathway and their possible therapeutic potential in cancer therapy. Moreover, Syk (Spleen tyrosine kinase), non-receptor tyrosine kinase which mediates signal transduction downstream of a variety of transmembrane receptors including classical immune-receptors like the B-cell receptor (BCR), which can also activate the inflammasome and NF-κB-mediated transcription of chemokines and cytokines in the presence of pathogens would be discussed as well. The highlight of this review article is to summarize the classic and novel signaling pathways involved in NF-κB and Syk signaling and then raise some possibilities for cancer therapy.

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Berberine for bone regeneration: therapeutic potential and molecular mechanisms

Journal of Ethnopharmacology ◽

10.1016/j.jep.2021.114249 ◽

2021 ◽

pp. 114249

Author(s):

Yuhan Zhang ◽

Jinlong Ma ◽

Weifen Zhang

Keyword(s):

Bone Regeneration ◽

Molecular Mechanisms ◽

Therapeutic Potential

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The Potential Association between the Risk of Post-Surgical Adhesion and the Activated Local Angiotensin II Type 1 Receptors: Need for Novel Treatment Strategies

Gastrointestinal Tumors ◽

10.1159/000514614 ◽

2021 ◽

pp. 1-8

Author(s):

Mahmood Tavakkoli ◽

Saeed Aali ◽

Borzoo Khaledifar ◽

Gordon A. Ferns ◽

Majid Khazaei ◽

...

Keyword(s):

Angiotensin Ii ◽

Molecular Mechanisms ◽

Transforming Growth Factor ◽

Therapeutic Potential ◽

Angiotensin Receptor Blockers ◽

Surgical Techniques ◽

Treatment Strategies ◽

Transforming Growth Factor Β

Background: Post-surgical adhesion bands (PSABs) are a common complication after abdominal or pelvic surgeries for different reasons like cancer treatment. Despite improvements in surgical techniques and the administration of drugs or the use of physical barriers, there has only been limited improvement in the frequency of postoperative adhesions. Complications of PSAB are pain, infertility, intestinal obstruction, and increased mortality. The most important molecular mechanisms for the development of PSAB are inflammatory response, oxidative stress, and overexpression of pro-fibrotic molecules such as transforming growth factor β. However, questions remain about the pathogenesis of this problem, for example, the causes for individual differences or why certain tissue sites are more prone to post-surgical adhesions. Summary: Addressing the pathological causes of PSAB, the potential role of local angiotensin II/angiotensin II type 1 receptors (AngII/AT1R), may help to prevent this problem. Key Message: The objective of this article was to explore the role of the AngII/AT1R axis potential to induce PSAB and the therapeutic potential of angiotensin receptor blockers in the prevention and treatment of PSAB.

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Targeting the JAK-STAT pathway in autoimmune diseases and cancers: A focus on molecular mechanisms and therapeutic potential

Biochemical Pharmacology ◽

10.1016/j.bcp.2021.114760 ◽

2021 ◽

Vol 193 ◽

pp. 114760

Author(s):

Hong-Tai Tzeng ◽

I-Tsu Chyuan ◽

Jenn-Haung Lai

Keyword(s):

Autoimmune Diseases ◽

Molecular Mechanisms ◽

Therapeutic Potential ◽

Stat Pathway

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Feeding a Saccharomyces cerevisiae fermentation product improves udder health and immune response to a Streptococcus uberis mastitis challenge in mid-lactation dairy cows

Journal of Animal Science and Biotechnology ◽

10.1186/s40104-021-00560-8 ◽

2021 ◽

Vol 12 (1) ◽

Author(s):

M. Vailati-Riboni ◽

D. N. Coleman ◽

V. Lopreiato ◽

A. Alharthi ◽

R. E. Bucktrout ◽

...

Keyword(s):

Saccharomyces Cerevisiae ◽

Somatic Cell ◽

Pathway Analysis ◽

Molecular Mechanisms ◽

Somatic Cell Score ◽

Molecular Networks ◽

Epithelial Tissue ◽

Udder Health ◽

Streptococcus Uberis ◽

Fermentation Product

Abstract Background We aimed to characterize the protective effects and the molecular mechanisms of action of a Saccharomyces cerevisiae fermentation product (NTK) in response to a mastitis challenge. Eighteen mid-lactation multiparous Holstein cows (n = 9/group) were fed the control diet (CON) or CON supplemented with 19 g/d NTK for 45 d (phase 1, P1) and then infected in the right rear quarter with 2500 CFU of Streptococcus uberis (phase 2, P2). After 36-h, mammary gland and liver biopsies were collected and antibiotic treatment started until the end of P2 (9 d post challenge). Cows were then followed until day 75 (phase 3, P3). Milk yield (MY) and dry matter intake (DMI) were recorded daily. Milk samples for somatic cell score were collected, and rectal and udder temperature, heart and respiration rate were recorded during the challenge period (P2) together with blood samples for metabolite and immune function analyses. Data were analyzed by phase using the PROC MIXED procedure in SAS. Biopsies were used for transcriptomic analysis via RNA-sequencing, followed by pathway analysis. Results DMI and MY were not affected by diet in P1, but an interaction with time was recorded in P2 indicating a better recovery from the challenge in NTK compared with CON. NTK reduced rectal temperature, somatic cell score, and temperature of the infected quarter during the challenge. Transcriptome data supported these findings, as NTK supplementation upregulated mammary genes related to immune cell antibacterial function (e.g., CATHL4, NOS2), epithelial tissue protection (e.g. IL17C), and anti-inflammatory activity (e.g., ATF3, BAG3, IER3, G-CSF, GRO1, ZFAND2A). Pathway analysis indicated upregulation of tumor necrosis factor α, heat shock protein response, and p21 related pathways in the response to mastitis in NTK cows. Other pathways for detoxification and cytoprotection functions along with the tight junction pathway were also upregulated in NTK-fed cows. Conclusions Overall, results highlighted molecular networks involved in the protective effect of NTK prophylactic supplementation on udder health during a subclinical mastitic event.

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Cotreatment with RepSox and LBH589 improves the in vitro developmental competence of porcine somatic cell nuclear transfer embryos

Reproduction Fertility and Development ◽

10.1071/rd17543 ◽

2018 ◽

Vol 30 (10) ◽

pp. 1342 ◽

Cited By ~ 4

Author(s):

Zhao-Bo Luo ◽

Long Jin ◽

Qing Guo ◽

Jun-Xia Wang ◽

Xiao-Xu Xing ◽

...

Keyword(s):

Somatic Cell ◽

Somatic Cell Nuclear Transfer ◽

Nuclear Transfer ◽

Formation Rate ◽

Epigenetic Reprogramming ◽

Developmental Competence ◽

Abnormal Development ◽

Control Group ◽

Blastocyst Formation

Accumulating evidence suggests that aberrant epigenetic reprogramming and low pluripotency of donor nuclei lead to abnormal development of cloned embryos and underlie the inefficiency of mammalian somatic cell nuclear transfer (SCNT). The present study demonstrates that treatment with the small molecule RepSox alone upregulates the expression of pluripotency-related genes in porcine SCNT embryos. Treatment with the histone deacetylase inhibitor LBH589 significantly increased the blastocyst formation rate, whereas treatment with RepSox did not. Cotreatment with 12.5 μM RepSox and 50 nM LBH589 (RepSox + LBH589) for 24 h significantly increased the blastocyst formation rate compared with that of untreated embryos (26.9% vs 8.5% respectively; P < 0.05). Furthermore, the expression of pluripotency-related genes octamer-binding transcription factor 4 (NANOG) and SRY (sex determining region Y)-box 2 (SOX2) were found to significantly increased in the RepSox + LBH589 compared with control group at both the 4-cell and blastocyst stages. In particular, the expression of NANOG was 135-fold higher at the blastocyst stage in the RepSox + LBH589 group. Moreover, RepSox + LBH589 improved epigenetic reprogramming. In summary, RepSox + LBH589 increases the expression of developmentally important genes, optimises epigenetic reprogramming and improves the in vitro development of porcine SCNT embryos.

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The molecular mechanisms and therapeutic potential of EZH2 in breast cancer

Life Sciences ◽

10.1016/j.lfs.2021.120047 ◽

2021 ◽

pp. 120047

Author(s):

Sara Adibfar ◽

Marischa Elveny ◽

Hadisha Sh. Kashikova ◽

Maria Vladimirovna Mikhailova ◽

Pooya Farhangnia ◽

...

Keyword(s):

Breast Cancer ◽

Molecular Mechanisms ◽

Therapeutic Potential

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