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Immune Interactions during the Reproductive Cycle

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Book Series: Frontiers Research Topics ISSN: 16648714 ISBN: 9782889195640 Year: Pages: 158 DOI: 10.3389/978-2-88919-564-0 Language: English
Publisher: Frontiers Media SA
Subject: Allergy and Immunology --- Medicine (General)
Added to DOAB on : 2016-01-19 14:05:46
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Abstract

Mammalian pregnancy represents a unique immunological riddle in that the mother does not reject her allogeneic fetus. In part this is largely due to a general sequestration or diminution of T cell activity, and an increased involvement of the innate immune system. The field of immunology is concerned primarily with how innate and adaptive mechanisms collaborate to protect vertebrates from infection. Although many cellular and molecular actors have evidently important roles, antibodies and lymphocytes are considered to be the principal players. Yet despite their importance, it would be definitely simplistic to conclude that they are solely essential for immunity overall. A major distinction between adaptive and innate immunity is the spontaneity of the innate immune response, which utilizes an already pre-existing but limited repertoire of responding modules. The slower onset of adaptive immunity compensates by its ability to recognize a much broader repertory of foreign substances, and also by its power to constantly improve during a response, whereas innate immunity remains relatively unaffected. The interactions between the reproductive system and the immune system are of particular interest, since the reproductive system is unique in that its primary role is to assure the continuity of the species, while the immune system provides internal protection and thus facilitates continued health and survival. The modus operandi of these two morphologically diffuse systems involves widely distributed chemical signals in response to environmental input, and both systems must interact for the normal functioning of each. Furthermore, dysregulation of normal physiological interactions between the reproductive and immune systems can lead to severe pregnancy-related disorders or complications. On the other hand, by ameliorating auto-inflammatory conditions such as MS and RA, pregnancy may provide a unique insight into novel immune modulatory strategies. The scientific focus on reproductive–immune research has historically provided substantial insight into the interface between these two physiological systems. A translational research approach would involve a tight interaction between diverse scientific and clinical disciplines including immunology, obstetrics, haematology, haemostasis and endocrinology. With so much recent progress in the field, we believe that it is valuable and well-timed to review the broad variety of the relevant physiologic and pathologic aspects – from menstruation to fertilization and implantation, and from placentation and pregnancy per se to the post partum condition - in which the immune system takes part. We are looking forward to a wide and vivid discussion of these and related issues, and we sincerely expect that our readers profoundly benefit from new exciting insights and fruitful collaborations.

AMP-Activated Protein Kinase Signalling

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ISBN: 9783038976622 Year: Pages: 452 DOI: 10.3390/books978-3-03897-663-9 Language: eng
Publisher: MDPI - Multidisciplinary Digital Publishing Institute
Subject: Science (General) --- Biology
Added to DOAB on : 2019-03-21 14:08:22
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Abstract

Starting from a kinase of interest, AMP-activated protein kinase (AMPK) has gone far beyond an average biomolecule. Being expressed in all mammalian cell types and probably having a counterpart in every eukaryotic cell, AMPK has attracted interest in virtually all areas of biological research. Structural and biophysical insights have greatly contributed to a molecular understanding of this kinase. From good old protein biochemistry to modern approaches, such as systems biology and advanced microscopy, all disciplines have provided important information. Thus, multiple links to cellular events and subcellular localizations have been established. Moreover, the crucial involvement of AMPK in human health and disease has been evidenced. AMPK accordingly has moved from an interesting enzyme to a pharmacological target. However, despite our extensive current knowledge about AMPK, the growing community is busier than ever. This book provides a snapshot of recent and current AMPK research with an emphasis on work providing molecular insight, including but not limited to novel physiological and pathological functions, or regulatory mechanisms. Up-to-date reviews and research articles are included.

Keywords

exercise --- glucose uptake --- AMP-activated protein kinase --- TBC1D4 --- AS160 --- AMP-activated protein kinase --- developmental origins of health and disease (DOHaD) --- hypertension --- kidney disease --- nutrient-sensing signals --- oxidative stress --- renin-angiotensin system --- AMPK --- autophagy --- co-expression --- microarrays --- 3T3-L1 --- adipocyte --- differentiation --- AMPK --- tight junctions --- epithelial cells --- ZO-1 --- par complex --- MDCK --- nectin-afadin --- adherent junctions --- TAK1 --- AMPK --- phosphorylation --- AMPK kinase --- endothelial nitric-oxide synthase --- vasodilation --- phenylephrine --- vasoconstriction --- endothelial cells --- ionomycin --- AMPK --- liver --- lipid metabolism --- fatty acid oxidation --- indirect calorimetry --- atrophy --- regrowth --- sirtuin 1 (SIRT1) --- peroxisome proliferator-activated receptor gamma coactivator 1-? (PGC1?) --- heat shock protein --- fiber-type --- AMPK --- monocytes --- macrophages --- differentiation --- autophagy --- AML --- MDS --- CML --- CMML --- pregnancy --- catechol-O-methyltransferase --- 2-methoxyestradiol --- preeclampsia --- gestational diabetes mellitus --- AMPK --- IL-1? --- NLRP3 --- nutrition --- dietary fatty acids --- metabolic-inflammation --- nutrigenomics --- AMPK --- LKB1 --- autophagy --- proteasome --- hypertrophy --- atrophy --- skeletal muscle --- AICAR --- mTOR --- protein synthesis --- AMPK --- epigenetics --- chromatin remodeling --- histone modification --- DNA methylation --- medulloblastoma --- sonic hedgehog --- AMPK --- AMP-activated protein kinase (AMPK) --- spermatozoa --- motility --- mitochondria --- membranes --- signaling --- stress --- assisted reproduction techniques --- AMP-activated protein kinase --- epigenetics --- protein acetylation --- KATs --- HDACs --- acetyl-CoA --- NAD+ --- AMP-activated protein kinase --- glycogen --- exercise --- metabolism --- cellular energy sensing --- energy utilization --- liver --- skeletal muscle --- metabolic disease --- glycogen storage disease --- resveratrol --- AMPK --- hepatocyte --- liver --- steatosis --- transporter --- carrier --- pump --- membrane --- energy deficiency --- AMPK --- infection --- mycobacteria --- host defense --- energy metabolism --- AMPK --- activation loop --- AID --- ?-linker --- ?-linker --- CBS --- LKB1 --- CaMKK2 --- ?RIM --- hypothalamus --- adenosine monophosphate-activated protein kinase --- adipose tissue --- food intake --- adaptive thermogenesis --- beiging --- AMPK --- HDAC4/5 --- p70S6K --- MyHC I(?), motor endplate remodeling --- soleus muscle --- mechanical unloading --- hindlimb suspension --- AMPK --- synaptic activation --- PKA --- CREB --- soluble Adenylyl cyclase --- Immediate early genes --- transcription --- AMPK --- autophagy --- metabolism --- mTOR --- ULK --- AMP-activated protein kinase --- protein kinase B --- Akt --- insulin signalling --- A769662 --- endothelial function --- n/a

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