Role of p53 in the cellular response following oleic acid accumulation in Chang liver cells

Soybean is the second largest source of oil worldwide. Developing soybean varieties with high levels of oleic acid is a primary goal of the soybean breeders and industry. Edible oils containing high level of oleic acid and low level of linoleic acid are considered with higher oxidative stability and can be used as a natural antioxidant in food stability. All developed high oleic acid soybeans carry two alleles; GmFAD2-1A and GmFAD2-1B. However, when planted in cold soil, a possible reduction in seed germination was reported when high seed oleic acid derived from GmFAD2-1 alleles were used. Besides the soybean fatty acid desaturase (GmFAD2-1) subfamily, the GmFAD2-2 subfamily is composed of five members, including GmFAD2-2A, GmFAD2-2B, GmFAD2-2C, GmFAD2-2D, and GmFAD2-2E. Segmental duplication of GmFAD2-1A/GmFAD2-1B, GmFAD2-2A/GmFAD2-2C, GmFAD2-2A/GmFAD2-2D, and GmFAD2-2D/GmFAD2-2C have occurred about 10.65, 27.04, 100.81, and 106.55 Mya, respectively. Using TILLING-by-Sequencing+ technology, we successfully identified 12, 8, 10, 9, and 19 EMS mutants at the GmFAD2-2A, GmFAD2-2B, GmFAD2-2C, GmFAD2-2D, and GmFAD2-2E genes, respectively. Functional analyses of newly identified mutants revealed unprecedented role of the five GmFAD2-2A, GmFAD2-2B, GmFAD2-2C, GmFAD2-2D, and GmFAD2-2E members in controlling the seed oleic acid content. Most importantly, unlike GmFAD2-1 members, subcellular localization revealed that members of the GmFAD2-2 subfamily showed a cytoplasmic localization, which may suggest the presence of an alternative fatty acid desaturase pathway in soybean for converting oleic acid content without substantially altering the traditional plastidial/ER fatty acid production.

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Oxidized LDLs as Signaling Molecules

Antioxidants ◽

10.3390/antiox10081184 ◽

2021 ◽

Vol 10 (8) ◽

pp. 1184

Author(s):

Jean-Marc Zingg ◽

Adelina Vlad ◽

Roberta Ricciarelli

Keyword(s):

Free Radicals ◽

Cellular Response ◽

Vascular System ◽

Signaling Molecules ◽

Scavenger Receptors ◽

Physiological Relevance ◽

Reactive Radicals ◽

Accumulation Of Lipids

Levels of oxidized low-density lipoproteins (oxLDLs) are usually low in vivo but can increase whenever the balance between formation and scavenging of free radicals is impaired. Under normal conditions, uptake and degradation represent the physiological cellular response to oxLDL exposure. The uptake of oxLDLs is mediated by cell surface scavenger receptors that may also act as signaling molecules. Under conditions of atherosclerosis, monocytes/macrophages and vascular smooth muscle cells highly exposed to oxLDLs tend to convert to foam cells due to the intracellular accumulation of lipids. Moreover, the atherogenic process is accelerated by the increased expression of the scavenger receptors CD36, SR-BI, LOX-1, and SRA in response to high levels of oxLDL and oxidized lipids. In some respects, the effects of oxLDLs, involving cell proliferation, inflammation, apoptosis, adhesion, migration, senescence, and gene expression, can be seen as an adaptive response to the rise of free radicals in the vascular system. Unlike highly reactive radicals, circulating oxLDLs may signal to cells at more distant sites and possibly trigger a systemic antioxidant defense, thus elevating the role of oxLDLs to that of signaling molecules with physiological relevance.

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Studies on Thymidine Kinase, Thymidylate Kinase, and Deoxycytidylate Deaminase of Chang Liver Cells

Journal of Biological Chemistry ◽

10.1016/s0021-9258(18)93537-4 ◽

1968 ◽

Vol 243 (8) ◽

pp. 1979-1984

Author(s):

P Eker

Keyword(s):

Thymidine Kinase ◽

Liver Cells ◽

Thymidylate Kinase ◽

Chang Liver

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Studies on the role of cyclic guanosine 3':5'-monophosphate and extracellular Ca2+ in the regulation of glycogenolysis in rat liver cells.

Journal of Biological Chemistry ◽

10.1016/s0021-9258(17)33489-0 ◽

1976 ◽

Vol 251 (10) ◽

pp. 2987-2992 ◽

Cited By ~ 11

Author(s):

R H Pointer ◽

F R Butcher ◽

J N Fain

Keyword(s):

Rat Liver ◽

Liver Cells ◽

Rat Liver Cells

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The Role of Biomimetic Hypoxia on Cancer Cell Behaviour in 3D Models: A Systematic Review

Cancers ◽

10.3390/cancers13061334 ◽

2021 ◽

Vol 13 (6) ◽

pp. 1334

Author(s):

Ye Liu ◽

Zahra Mohri ◽

Wissal Alsheikh ◽

Umber Cheema

Keyword(s):

Systematic Review ◽

Cellular Response ◽

3D Culture ◽

3D Models ◽

In Vitro Models ◽

Research Findings ◽

Tissue Models

The development of biomimetic, human tissue models is recognized as being an important step for transitioning in vitro research findings to the native in vivo response. Oftentimes, 2D models lack the necessary complexity to truly recapitulate cellular responses. The introduction of physiological features into 3D models informs us of how each component feature alters specific cellular response. We conducted a systematic review of research papers where the focus was the introduction of key biomimetic features into in vitro models of cancer, including 3D culture and hypoxia. We analysed outcomes from these and compiled our findings into distinct groupings to ascertain which biomimetic parameters correlated with specific responses. We found a number of biomimetic features which primed cancer cells to respond in a manner which matched in vivo response.

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Exploring the multiple roles of guardian of the genome: P53

Egyptian Journal of Medical Human Genetics ◽

10.1186/s43042-020-00089-x ◽

2020 ◽

Vol 21 (1) ◽

Author(s):

Wasim Feroz ◽

Arwah Mohammad Ali Sheikh

Keyword(s):

Cell Cycle ◽

Dna Repair ◽

Crucial Role ◽

Cellular Response ◽

Genotoxic Stress ◽

Specific Response ◽

Main Body ◽

Repair System ◽

Tumour Suppression

Abstract Background Cells have evolved balanced mechanisms to protect themselves by initiating a specific response to a variety of stress. The TP53 gene, encoding P53 protein, is one of the many widely studied genes in human cells owing to its multifaceted functions and complex dynamics. The tumour-suppressing activity of P53 plays a principal role in the cellular response to stress. The majority of the human cancer cells exhibit the inactivation of the P53 pathway. In this review, we discuss the recent advancements in P53 research with particular focus on the role of P53 in DNA damage responses, apoptosis, autophagy, and cellular metabolism. We also discussed important P53-reactivation strategies that can play a crucial role in cancer therapy and the role of P53 in various diseases. Main body We used electronic databases like PubMed and Google Scholar for literature search. In response to a variety of cellular stress such as genotoxic stress, ischemic stress, oncogenic expression, P53 acts as a sensor, and suppresses tumour development by promoting cell death or permanent inhibition of cell proliferation. It controls several genes that play a role in the arrest of the cell cycle, cellular senescence, DNA repair system, and apoptosis. P53 plays a crucial role in supporting DNA repair by arresting the cell cycle to purchase time for the repair system to restore genome stability. Apoptosis is essential for maintaining tissue homeostasis and tumour suppression. P53 can induce apoptosis in a genetically unstable cell by interacting with many pro-apoptotic and anti-apoptotic factors. Furthermore, P53 can activate autophagy, which also plays a role in tumour suppression. P53 also regulates many metabolic pathways of glucose, lipid, and amino acid metabolism. Thus under mild metabolic stress, P53 contributes to the cell’s ability to adapt to and survive the stress. Conclusion These multiple levels of regulation enable P53 to perform diversified roles in many cell responses. Understanding the complete function of P53 is still a work in progress because of the inherent complexity involved in between P53 and its target proteins. Further research is required to unravel the mystery of this Guardian of the genome “TP53”.

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The binding of NCAM to FGFR1 induces a specific cellular response mediated by receptor trafficking

The Journal of Cell Biology ◽

10.1083/jcb.200903030 ◽

2009 ◽

Vol 187 (7) ◽

pp. 1101-1116 ◽

Cited By ~ 78

Author(s):

Chiara Francavilla ◽

Paola Cattaneo ◽

Vladimir Berezin ◽

Elisabeth Bock ◽

Diletta Ami ◽

...

Keyword(s):

Cell Migration ◽

Cellular Response ◽

Critical Role ◽

Biological Significance ◽

Receptor Activation ◽

Dependent Manner ◽

Fgf Receptor ◽

Neural Cell Adhesion ◽

Sustained Activation

Neural cell adhesion molecule (NCAM) associates with fibroblast growth factor (FGF) receptor-1 (FGFR1). However, the biological significance of this interaction remains largely elusive. In this study, we show that NCAM induces a specific, FGFR1-mediated cellular response that is remarkably different from that elicited by FGF-2. In contrast to FGF-induced degradation of endocytic FGFR1, NCAM promotes the stabilization of the receptor, which is recycled to the cell surface in a Rab11- and Src-dependent manner. In turn, FGFR1 recycling is required for NCAM-induced sustained activation of various effectors. Furthermore, NCAM, but not FGF-2, promotes cell migration, and this response depends on FGFR1 recycling and sustained Src activation. Our results implicate NCAM as a nonconventional ligand for FGFR1 that exerts a peculiar control on the intracellular trafficking of the receptor, resulting in a specific cellular response. Besides introducing a further level of complexity in the regulation of FGFR1 function, our findings highlight the link of FGFR recycling with sustained signaling and cell migration and the critical role of these events in dictating the cellular response evoked by receptor activation.

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The role of ceramide in the cellular response to cytotoxic agents

Current Opinion in Oncology ◽

10.1097/00001622-199811000-00013 ◽

1998 ◽

Vol 10 (6) ◽

pp. 552-559 ◽

Cited By ~ 28

Author(s):

W. David Jarvis ◽

Steven Grant

Keyword(s):

Cellular Response ◽

Cytotoxic Agents

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