GENETICS OF HYPERTENSION ENDOPHENOTYPES AND METABOLIC TRAITS HIGHLIGHTS SHARED BIOLOGICAL PATHWAYS

Protein Kinases (PKs) are a heterogeneous family of enzymes that modulate several biological pathways, including cell division, cytoskeletal rearrangement, differentiation and apoptosis. In particular, due to their crucial role during human tumorigenesis and cancer progression, PKs are ideal targets for the design and development of effective and low toxic chemotherapeutics and represent the second group of drug targets after G-protein-coupled receptors. Nowadays, several compounds have been claimed to be PKs inhibitors, and some of them, such as imatinib, erlotinib and gefitinib, have already been approved for clinical use, whereas more than 30 others are in various phases of clinical trials. Among them, some natural or synthetic carbazole-based molecules represent promising PKs inhibitors due to their capability to interfere with PK activity by different mechanisms of action including the ability to act as DNA intercalating agents, interfere with the activity of enzymes involved in DNA duplication, such as topoisomerases and telomerases, and inhibit other proteins such as cyclindependent kinases or antagonize estrogen receptors. Thus, carbazoles can be considered a promising this class of compounds to be adopted in targeted therapy of different types of cancer.

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Analysis of biological networks and biological pathways associated with residual feed intake in beef cattle

Animal Science Journal ◽

10.1111/asj.12159 ◽

2013 ◽

Vol 85 (4) ◽

pp. 374-387 ◽

Cited By ~ 27

Author(s):

Brian Karisa ◽

Stephen Moore ◽

Graham Plastow

Keyword(s):

Beef Cattle ◽

Feed Intake ◽

Biological Networks ◽

Residual Feed Intake ◽

Biological Pathways

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Rewired Pathways and Disrupted Pathway Crosstalk in Schizophrenia Transcriptomes by Multiple Differential Coexpression Methods

Genes ◽

10.3390/genes12050665 ◽

2021 ◽

Vol 12 (5) ◽

pp. 665

Author(s):

Hui Yu ◽

Yan Guo ◽

Jingchun Chen ◽

Xiangning Chen ◽

Peilin Jia ◽

...

Keyword(s):

Gene Expression ◽

Focal Adhesion ◽

Biological Pathways ◽

Postmortem Brain ◽

Rna Seq ◽

Hub Genes ◽

Differential Coexpression ◽

Pathway Crosstalk ◽

Microarray Datasets ◽

Transcriptomic Studies

Transcriptomic studies of mental disorders using the human brain tissues have been limited, and gene expression signatures in schizophrenia (SCZ) remain elusive. In this study, we applied three differential co-expression methods to analyze five transcriptomic datasets (three RNA-Seq and two microarray datasets) derived from SCZ and matched normal postmortem brain samples. We aimed to uncover biological pathways where internal correlation structure was rewired or inter-coordination was disrupted in SCZ. In total, we identified 60 rewired pathways, many of which were related to neurotransmitter, synapse, immune, and cell adhesion. We found the hub genes, which were on the center of rewired pathways, were highly mutually consistent among the five datasets. The combinatory list of 92 hub genes was generally multi-functional, suggesting their complex and dynamic roles in SCZ pathophysiology. In our constructed pathway crosstalk network, we found “Clostridium neurotoxicity” and “signaling events mediated by focal adhesion kinase” had the highest interactions. We further identified disconnected gene links underlying the disrupted pathway crosstalk. Among them, four gene pairs (PAK1:SYT1, PAK1:RFC5, DCTN1:STX1A, and GRIA1:MAP2K4) were normally correlated in universal contexts. In summary, we systematically identified rewired pathways, disrupted pathway crosstalk circuits, and critical genes and gene links in schizophrenia transcriptomes.

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Multi-omics data integration reveals correlated regulatory features of triple negative breast cancer

Molecular Omics ◽

10.1039/d1mo00117e ◽

2021 ◽

Author(s):

Kevin Chappell ◽

Kanishka Manna ◽

Charity L. Washam ◽

Stefan Graw ◽

Duah Alkam ◽

...

Keyword(s):

Breast Cancer ◽

Data Integration ◽

Triple Negative Breast Cancer ◽

Triple Negative ◽

Biological Pathways ◽

Omics Data ◽

Insight Into ◽

Omics Data Integration

Multi-omics data integration of triple negative breast cancer (TNBC) provides insight into biological pathways.

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Metabolic traits in brown trout (Salmo trutta) vary in response to food restriction and intrinsic factors

Conservation Physiology ◽

10.1093/conphys/coaa096 ◽

2020 ◽

Vol 8 (1) ◽

Author(s):

Louise C Archer ◽

Stephen A Hutton ◽

Luke Harman ◽

W Russell Poole ◽

Patrick Gargan ◽

...

Keyword(s):

Life History ◽

Metabolic Rate ◽

Intraspecific Variation ◽

Brown Trout ◽

Environmental Conditions ◽

Food Restriction ◽

Metabolic Rates ◽

Intrinsic Factors ◽

Metabolic Traits ◽

Food Conditions

Abstract Metabolic rates vary hugely within and between populations, yet we know relatively little about factors causing intraspecific variation. Since metabolic rate determines the energetic cost of life, uncovering these sources of variation is important to understand and forecast responses to environmental change. Moreover, few studies have examined factors causing intraspecific variation in metabolic flexibility. We explore how extrinsic environmental conditions and intrinsic factors contribute to variation in metabolic traits in brown trout, an iconic and polymorphic species that is threatened across much of its native range. We measured metabolic traits in offspring from two wild populations that naturally show life-history variation in migratory tactics (one anadromous, i.e. sea-migratory, one non-anadromous) that we reared under either optimal food or experimental conditions of long-term food restriction (lasting between 7 and 17 months). Both populations showed decreased standard metabolic rates (SMR—baseline energy requirements) under low food conditions. The anadromous population had higher maximum metabolic rate (MMR) than the non-anadromous population, and marginally higher SMR. The MMR difference was greater than SMR and consequently aerobic scope (AS) was higher in the anadromous population. MMR and AS were both higher in males than females. The anadromous population also had higher AS under low food compared to optimal food conditions, consistent with population-specific effects of food restriction on AS. Our results suggest different components of metabolic rate can vary in their response to environmental conditions, and according to intrinsic (population-background/sex) effects. Populations might further differ in their flexibility of metabolic traits, potentially due to intrinsic factors related to life history (e.g. migratory tactics). More comparisons of populations/individuals with divergent life histories will help to reveal this. Overall, our study suggests that incorporating an understanding of metabolic trait variation and flexibility and linking this to life history and demography will improve our ability to conserve populations experiencing global change.

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Transcriptional regulation of N6-methyladenosine orchestrates sex-dimorphic metabolic traits

Nature Metabolism ◽

10.1038/s42255-021-00427-2 ◽

2021 ◽

Author(s):

David A. Salisbury ◽

David Casero ◽

Zhengyi Zhang ◽

Dan Wang ◽

Jason Kim ◽

...

Keyword(s):

Transcriptional Regulation ◽

Metabolic Traits

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