Cdc42/Rac Interactive Binding Containing Effector Proteins in Unicellular Protozoans With Reference to Human Host: Locks of the Rho Signaling

Umarao, Preeti; Rath, Pragyan Parimita; Gourinath, S.

doi:10.3389/fgene.2022.781885

Cited by 4 publications

(1 citation statement)

References 224 publications

(328 reference statements)

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“…That the Small GTPases (Gp GTP subunits) are the key to actin cytoskeleton signaling, which opens the lock of effector proteins to forward the signal downstream in several cellular pathways [58]. As the active Gp GTP subunits carrying specific designed hydrophobic acids in G-prorein that regulated by Rac1 for activating CMs and endothelial cells (through Inheriting active G protein for activating endothelial cells), as changing in the characteristics of the Inherited amino acids in the G-protein from Rac1 can be considered as a sign of dysfunction in both CMs and ECs functions and can reflect decreasing in heart functions.…”

Section: In Conclusion Of Heparin Activitiesmentioning

confidence: 99%

Rac1 AT1 Required For Ang2-AT2 Activities For Cardiomyocytes And ECs Where Tyr TAT And TAC Kinases Required For Preventing Glycoprotein Storage And Glycogen Accumulation

Tantawi¹

2022

Genesis

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Active Rac1 are so imp for improving cytoskeletal systems and for improving anti-inflammatory processes by activating Plcγ2, IFN-beta and glucocorticoid-beta (which necessary for B arrestin synthesis which necessary for activating endothelial cells function through activating ACE functions). Tyrosine kinases function (contain TAT and TAC codons) are so necessary for activating Ang2-AT2 productions for adjusting heart contractions and preventing collagen, glycoproteins, and cholesterol accumulations. Angiotensin II type 2 receptors (Ang2 bind to AT2 receptors) are produced from Ang1-AT1 by ACE regulated functions in Tyr kinases-dependent (which contain TAT and TAC codons), where Tyr codons are playing imp roles in AT1 and AT2 activities play important roles in protecting heart and blood vessels from accumulated cholesterol and glycopeptides and from accumulated glycogen. The deficiency in synthetase and in Proline (which promote amino acids synthesis regulated by aminotransferase activities) can cause accumulation of purines nucleotides which Represents or leads to glutamate accumulation and lead to accumulation of glycogen synthase where glycogen accumulation due to Tyrosine Codons TAA and TAG accumulation in the form of glycopeptides and glycoprotein with decreasing in imp

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Section: In Conclusion Of Heparin Activitiesmentioning

confidence: 99%

Rac1 AT1 Required For Ang2-AT2 Activities For Cardiomyocytes And ECs Where Tyr TAT And TAC Kinases Required For Preventing Glycoprotein Storage And Glycogen Accumulation

Tantawi¹

2022

Genesis

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Antitumor Mechanisms of Molecules Secreted by Trypanosoma cruzi in Colon and Breast Cancer: A Review

Sadr,

Ghiassi,

Lotfalizadeh

et al. 2023

ACAMC

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Background: Molecules secreted by Trypanosoma cruzi (T. cruzi) have beneficial effects on the immune system and can fight against cancer by inhibiting the growth of tumor cells, preventing angiogenesis, and promoting immune activation. Objective: This study aimed to investigate the effects of molecules secreted by Trypanosoma cruzi on the growth of colon and breast cancer cells, to understand the underlying mechanisms of action. Results: Calreticulin from T. cruzi, a 45 kDa protein, participates in essential changes in the tumor microenvironment by triggering an adaptive immune response, exerting an antiangiogenic effect, and inhibiting cell growth. On the other hand, a 21 kDa protein (P21) secreted at all stages of the parasite's life cycle can inhibit cell invasion and migration. Mucins, such as Tn, sialyl-Tn, and TF, are present both in tumor cells and on the surface of T. cruzi and are characterized as common antigenic determinants, inducing a cross-immune response. In addition, molecules secreted by the parasite are used recombinantly in immunotherapy against cancer for their ability to generate a reliable and long-lasting immune response. Conclusion: By elucidating the antitumor mechanisms of the molecules secreted by T. cruzi, this study provides valuable insights for developing novel therapeutic strategies to combat colon and breast cancer.

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Non-Receptor Tyrosine Kinases: Their Structure and Mechanistic Role in Tumor Progression and Resistance

Eshaq,

Flanagan,

Hassan

et al. 2024

Cancers

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Protein tyrosine kinases (PTKs) function as key molecules in the signaling pathways in addition to their impact as a therapeutic target for the treatment of many human diseases, including cancer. PTKs are characterized by their ability to phosphorylate serine, threonine, or tyrosine residues and can thereby rapidly and reversibly alter the function of their protein substrates in the form of significant changes in protein confirmation and affinity for their interaction with protein partners to drive cellular functions under normal and pathological conditions. PTKs are classified into two groups: one of which represents tyrosine kinases, while the other one includes the members of the serine/threonine kinases. The group of tyrosine kinases is subdivided into subgroups: one of them includes the member of receptor tyrosine kinases (RTKs), while the other subgroup includes the member of non-receptor tyrosine kinases (NRTKs). Both these kinase groups function as an “on” or "off" switch in many cellular functions. NRTKs are enzymes which are overexpressed and activated in many cancer types and regulate variable cellular functions in response to extracellular signaling-dependent mechanisms. NRTK-mediated different cellular functions are regulated by kinase-dependent and kinase-independent mechanisms either in the cytoplasm or in the nucleus. Thus, targeting NRTKs is of great interest to improve the treatment strategy of different tumor types. This review deals with the structure and mechanistic role of NRTKs in tumor progression and resistance and their importance as therapeutic targets in tumor therapy.

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Cdc42/Rac Interactive Binding Containing Effector Proteins in Unicellular Protozoans With Reference to Human Host: Locks of the Rho Signaling

Cited by 4 publications

References 224 publications

Rac1 AT1 Required For Ang2-AT2 Activities For Cardiomyocytes And ECs Where Tyr TAT And TAC Kinases Required For Preventing Glycoprotein Storage And Glycogen Accumulation

Rac1 AT1 Required For Ang2-AT2 Activities For Cardiomyocytes And ECs Where Tyr TAT And TAC Kinases Required For Preventing Glycoprotein Storage And Glycogen Accumulation

Antitumor Mechanisms of Molecules Secreted by Trypanosoma cruzi in Colon and Breast Cancer: A Review

Non-Receptor Tyrosine Kinases: Their Structure and Mechanistic Role in Tumor Progression and Resistance

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