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941.
942.
Thomae AW Baltin J Pich D Deutsch MJ Ravasz M Zeller K Gossen M Hammerschmidt W Schepers A 《Cellular and molecular life sciences : CMLS》2011,68(22):3741-3756
In eukaryotes, binding of the six-subunit origin recognition complex (ORC) to DNA provides an interactive platform for the
sequential assembly of pre-replicative complexes. This process licenses replication origins competent for the subsequent initiation
step. Here, we analyze the contribution of human Orc6, the smallest subunit of ORC, to DNA binding and pre-replicative complex
formation. We show that Orc6 not only interacts with Orc1–Orc5 but also with the initiation factor Cdc6. Biochemical and imaging
experiments reveal that this interaction is required for licensing DNA replication competent. Furthermore, we demonstrate
that Orc6 contributes to the interaction of ORC with the chaperone protein HMGA1a (high mobility group protein A1a). Binding
of human ORC to replication origins is not specified at the level of DNA sequence and the functional organization of origins
is poorly understood. We have identified HMGA1a as one factor that might direct ORC to AT-rich heterochromatic regions. The
systematic analysis of the interaction between ORC and HMGA1a revealed that Orc6 interacts with the acidic C-terminus of HMGA1a
and also with its AT-hooks. Both domains support autonomous replication if targeted to DNA templates. As such, Orc6 functions
at different stages of the replication initiation process. Orc6 can interact with ORC chaperone proteins such as HMGA1a to
facilitate chromatin binding of ORC and is also an essential factor for pre-RC formation. 相似文献
943.
Pan Q Qiao F Gao C Norman B Optican L Zelenka PS 《Cellular and molecular life sciences : CMLS》2011,68(20):3425-3436
The non-receptor tyrosine kinase Src is a critical regulator of cytoskeletal contraction, cell adhesion, and migration. In
normal cells, Src activity is stringently controlled by Csk-dependent phosphorylation of Src(Y530), and by Cullin-5-dependent
ubiquitinylation, which affects active Src(pY419) exclusively, leading to its degradation by the proteosome. Previous work
has shown that Src activity is also limited by Cdk5, a proline-directed kinase, which has been shown to phosphorylate Src(S75).
Here we show that this phosphorylation promotes the ubiquitin-dependent degradation of Src, thus restricting the availability
of active Src. We demonstrate that Src(S75) phosphorylation occurs in vivo in epithelial cells, and like ubiquitinylation,
is associated only with active Src. Preventing Cdk5-dependent phosphorylation of Src(S75), by site-specific mutation of S75
or by Cdk5 inhibition or suppression, increases Src(Y419) phosphorylation and kinase activity, resulting in Src-dependent
cytoskeletal changes. In transfected cells, ubiquitinylation of Src(S75A) is about 35% that of wild-type Src-V5, and its half-life
is approximately 2.5-fold greater. Cdk5 suppression leads to a comparable decrease in the ubiquitinylation of endogenous Src
and a similar increase in Src stability. Together, these findings demonstrate that Cdk5-dependent phosphorylation of Src(S75)
is a physiologically significant mechanism of regulating intracellular Src activity. 相似文献
944.
945.
946.
The maintenance of mucosal barrier equilibrium in the intestine requires a delicate and dynamic balance between enterocyte
loss by apoptosis and the generation of new cells by proliferation from stem cell precursors at the base of the intestinal
crypts. When the balance shifts towards either excessive or insufficient apoptosis, a broad range of gastrointestinal diseases
can manifest. Recent work from a variety of laboratories has provided evidence in support of a role for receptors of the innate
immune system, including Toll-like receptors 2, 4, and 9 as well as the intracellular pathogen recognition receptor NOD2/CARD15,
in the initiation of enterocyte apoptosis. The subsequent induction of enterocyte apoptosis in response to the activation
of these innate immune receptors plays a key role in the development of various intestinal diseases, including necrotizing
enterocolitis, Crohn’s disease, ulcerative colitis, and intestinal cancer. This review will detail the regulatory pathways
that govern enterocyte apoptosis, and will explore the role of the innate immune system in the induction of enterocyte apoptosis
in gastrointestinal disease. 相似文献
947.
Rodríguez-Muñoz M Sánchez-Blázquez P Vicente-Sánchez A Bailón C Martín-Aznar B Garzón J 《Cellular and molecular life sciences : CMLS》2011,68(17):2933-2949
A series of pharmacological and physiological studies have demonstrated the functional cross-regulation between MOR and NMDAR.
These receptors coexist at postsynaptic sites in midbrain periaqueductal grey (PAG) neurons, an area implicated in the analgesic
effects of opioids like morphine. In this study, we found that the MOR-associated histidine triad nucleotide-binding protein
1 (HINT1) is essential for maintaining the connection between the NMDAR and MOR. Morphine-induced analgesic tolerance is prevented
and even rescued by inhibiting PKC or by antagonizing NMDAR. However, in the absence of HINT1, the MOR becomes supersensitive
to morphine before suffering a profound and lasting desensitization that is refractory to PKC inhibition or NMDAR antagonism.
Thus, HINT1 emerges as a key protein that is critical for sustaining NMDAR-mediated regulation of MOR signaling strength.
Thus, HINT1 deficiency may contribute to opioid-intractable pain syndromes by causing long-term MOR desensitization via mechanisms
independent of NMDAR. 相似文献
948.
Biological cells harbor a variety of molecular machines that carry out mechanical work at the nanoscale. One of these nanomachines
is the bacterial motor protein SecA which translocates secretory proteins through the protein-conducting membrane channel
SecYEG. SecA converts chemically stored energy in the form of ATP into a mechanical force to drive polypeptide transport through
SecYEG and across the cytoplasmic membrane. In order to accommodate a translocating polypeptide chain and to release transmembrane
segments of membrane proteins into the lipid bilayer, SecYEG needs to open its central channel and the lateral gate. Recent
crystal structures provide a detailed insight into the rearrangements required for channel opening. Here, we review our current
understanding of the mode of operation of the SecA motor protein in concert with the dynamic SecYEG channel. We conclude with
a new model for SecA-mediated protein translocation that unifies previous conflicting data. 相似文献
949.
Yvonne G. J. van Helden Roger W. L. Godschalk Hans J. M. Swarts Peter C. H. Hollman Frederik J. van Schooten Jaap Keijer 《Cellular and molecular life sciences : CMLS》2011,68(3):489-504
Molecular mechanisms triggered by high dietary beta-carotene (BC) intake in lung are largely unknown. We performed microarray
gene expression analysis on lung tissue of BC supplemented beta-carotene 15,15′-monooxygenase 1 knockout (Bcmo1
−/−) mice, which are—like humans—able to accumulate BC. Our main observation was that the genes were regulated in an opposite direction in male and female Bcmo1
−/− mice by BC. The steroid biosynthetic pathway was overrepresented in BC-supplemented male Bcmo1
−/− mice. Testosterone levels were higher after BC supplementation only in Bcmo1
−/− mice, which had, unlike wild-type (Bcmo1
+/+) mice, large variations. We hypothesize that BC possibly affects hormone synthesis or metabolism. Since sex hormones influence
lung cancer risk, these data might contribute to an explanation for the previously found increased lung cancer risk after
BC supplementation (ATBC and CARET studies). Moreover, effects of BC may depend on the presence of frequent human BCMO1 polymorphisms, since these effects were not found in wild-type mice. 相似文献
950.
The skin is our primary shield against microbial pathogens and has evolved innate and adaptive strategies to enhance immunity
in response to injury or microbial insult. The study of antimicrobial peptide (AMP) production in mammalian skin has revealed
several of the elegant strategies that AMPs use to prevent infection. AMPs are inducible by both infection and injury and
protect the host by directly killing pathogens and/or acting as multifunctional effector molecules that trigger cellular responses
to aid in the anti-infective and repair response. Depending on the specific AMP, these molecules can influence cytokine production,
cell migration, cell proliferation, differentiation, angiogenesis and wound healing. Abnormal production of AMPs has been
associated with the pathogenesis of several cutaneous diseases and plays a role in determining a patient’s susceptibility
to pathogens. This review will discuss current research on the regulation and function of AMPs in the skin and in skin disorders. 相似文献