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71.
Zarain-Herzberg Angel Afzal Nasir Elimban Vijayan Dhalla Naranjan S. 《Molecular and cellular biochemistry》1996,163(1):285-290
Myocardial infarction in rats induced by occluding the left coronary artery for 4, 8 and 16 weeks has been shown to result in congestive heart failure (CHF) characterized by hypertrophy of the viable ventricular myocardial tissue. We have previously demonstrated a decreased calcium transport activity in the sarcoplasmic reticulum (SR) of post-myocardial infarction failing rat hearts. In this study we have measured the steady state levels of the cardiac SR Ca2+-pump ATPase (SERCA2) mRNA using Northern blot and slot blot analyses. The relative amounts of SERCA2 mRNA were decreased with respect to GAPDH mRNA and 28 S rRNA in experimental failing hearts at 4 and 8 weeks post myocardial infarction by about 20% whereas those at 16 weeks declined by about 35% of control values. The results obtained by Western blot analysis, revealed that the immunodetectable levels of SERCA2 protein in 8 and 16 weeks postinfarcted animals were decreased by about 20% and 30%, respectively. The left ventricular SR Ca2+-pump ATPase specific activity was depressed in the SR preparations of failing hearts as early as 4 weeks post myocardial infarction and declined by about 65% at 16 weeks compared to control. These results indicate that the depressed SR Ca2+-pump ATPase activity in CHF may partly be due to decreased steady state amounts of SERCA2 mRNA and SERCA2 protein in the failing myocardium. 相似文献
72.
Phosphatidylinositols and their phosphorylated derivatives, phosphoinositides, play a central role in regulating diverse cellular functions. These phospholipids have been shown to interact with the hydrophobic TH domain of the tumor necrosis factor (TNF)-α-induced protein 8 (TIPE) family of proteins. However, the precise mechanism of interaction of these lipids is unclear. Here we report the binding mode and interactions of these phospholipids in the TH domain, as elucidated using molecular docking and simulations. Results indicate that phosphoinositides bind to the TH domain in a similar way by inserting their lipid tails in the hydrophobic cavity. The exposed head group is stabilized by interactions with critical positively charged residues on the surface of these proteins. Further MD simulations confirmed the dynamic stability of these lipids in the TH domain. This computational analysis thus provides insight into the binding mode of phospholipids in the TH domain of the TIPE family of proteins. 相似文献
73.
A new form of L-histidine L-aspartate monohydrate crystallizes in space group P22 witha = 5.131(1),b = 6.881(1),c= 18.277(2) Å,β= 97.26(1)° and Z = 2. The structure has been solved by the direct methods and refined to anR value of 0.044 for 1377 observed reflections. Both the amino acid molecules in the complex assume the energetically least favourable allowed conformation with the side chains staggered between the α-amino and α-scarboxylate groups. This results in characteristic distortions in some bond angles. The unlike molecules aggregate into alternating double layers with water molecules sandwiched between the two layers in the aspartate double layer. The molecules in each layer are arranged in a head-to-tail fashion. The aggregation pattern in the complex is fundamentally similar to that in other binary complexes involving commonly occurring L amino acids, although the molecules aggregate into single layers in them. The distribution of crystallographic (and local) symmetry elements in the old form of the complex is very different from that in the new form. So is the conformation of half the histidine molecules. Yet, the basic features of molecular aggregation, particularly the nature and the orientation of head-to-tail sequences, remain the same in both the forms. This supports the thesis that the characteristic aggregation patterns observed in crystal structures represent an intrinsic property of amino acid aggregation. 相似文献
74.
J. C. Raine † K. Hua ‡ D. P. Bureau ‡ M. M. Vijayan § J. F. Leatherland 《Journal of fish biology》2007,71(1):148-162
The study examined whether the early life-history temperature experience of rainbow trout Oncorhynchus mykiss embryos affects subsequent growth and expression of growth-related genes in the growing-up juveniles in response to variations in ration levels. Embryos were reared in a Heath incubator at either 8·5° C (E8·5) or 6·0° C (E6·0) until hatching, at which time they were transferred to grow-up tanks supplied with water at 8·5° C. At swim-up, the late stage embryos were subsequently fed a salmonid starter diet at levels of 5, 2 or 0·5% of live body mass per day. The body mass and proximate composition of the juveniles was examined when yolk absorbance was complete (21 days after the fish commenced feeding). Quantitative RT-PCR was used to examine the expression of mRNA encoding for growth hormone receptors 1 and 2 (GHR1 and GHR2) in the liver, and the two isoforms of thyroid hormone receptor (TRα and TRβ) in the liver and intestinal tract. Final body mass and total length, liver and intestinal masses, and total lipid content of the E8·5 treatment group were directly related to increased ration size. These variables in the E6·0 treatment group fed the 5% ration were significantly lower than for the comparable E8·5 treatment group, suggesting an effect of embryo rearing temperature on the subsequent growth of these late stage embryos as they undergo the transition from embryo to early juvenile. Intestinal TRα and TRβ mRNA abundance was directly related to ration size in the E8·5 treatment group, but not in the E6·0 treatment group. Conversely, hepatic TRα and TRβ mRNA abundance was significantly affected by ration size only in the E6·0 group, with TRβ and TRα abundance showing direct and inverse relationships with ration size, respectively. Hepatic GHR1 mRNA abundance was significantly and directly related to ration size in both the E8·5 and E6·0 treatment groups, but there were no differences in the abundance of hepatic GHR2 mRNA among any treatments. 相似文献
75.
Murali Vijayan Rainier Vladlen Alvir Razelle Veronique Alvir Lloyd E. Bunquin Jangampalli Adi Pradeepkiran P. Hemachandra Reddy 《Aging cell》2022,21(8)
Alzheimer''s disease (AD) is the most common cause of mental dementia in the aged population. AD is characterized by the progressive decline of memory and multiple cognitive functions, and changes in behavior and personality. Recent research has revealed age‐dependent increased levels of VDAC1 in postmortem AD brains and cerebral cortices of APP, APPxPS1, and 3xAD.Tg mice. Further, we found abnormal interaction between VDAC1 and P‐Tau in the AD brains, leading to mitochondrial structural and functional defects. Our current study aimed to understand the impact of a partial reduction of voltage‐dependent anion channel 1 (VDAC1) protein on mitophagy/autophagy, mitochondrial and synaptic activities, and behavior changes in transgenic TAU mice in Alzheimer''s disease. To determine if a partial reduction of VDAC1 reduces mitochondrial and synaptic toxicities in transgenic Tau (P301L) mice, we crossed heterozygote VDAC1 knockout (VDAC1+/−) mice with TAU mice and generated double mutant (VDAC1+/−/TAU) mice. We assessed phenotypic behavior, protein levels of mitophagy, autophagy, synaptic, other key proteins, mitochondrial morphology, and dendritic spines in TAU mice relative to double mutant mice. Partial reduction of VDAC1 rescued the TAU‐induced behavioral impairments such as motor coordination and exploratory behavioral changes, and learning and spatial memory impairments in VDAC1+/−/TAU mice. Protein levels of mitophagy, autophagy, and synaptic proteins were significantly increased in double mutant mice compared with TAU mice. In addition, dendritic spines were significantly increased; the mitochondrial number was significantly reduced, and mitochondrial length was increased in double mutant mice. Based on these observations, we conclude that reduced VDAC1 is beneficial in symptomatic‐transgenic TAU mice. 相似文献
76.
Yamini S. Bynagari Bela Nagy Jr. Florin Tuluc Kamala Bhavaraju Soochong Kim K. Vinod Vijayan Satya P. Kunapuli 《The Journal of biological chemistry》2009,284(20):13413-13421
The novel class of protein kinase C (nPKC) isoform η is expressed in
platelets, but not much is known about its activation and function. In this
study, we investigated the mechanism of activation and functional implications
of nPKCη using pharmacological and gene knock-out approaches. nPKCη
was phosphorylated (at Thr-512) in a time- and concentration-dependent manner
by 2MeSADP. Pretreatment of platelets with MRS-2179, a P2Y1
receptor antagonist, or YM-254890, a Gq blocker, abolished
2MeSADP-induced phosphorylation of nPKCη. Similarly, ADP failed to
activate nPKCη in platelets isolated from P2Y1 and
Gq knock-out mice. However, pretreatment of platelets with
P2Y12 receptor antagonist, AR-C69331MX did not interfere with
ADP-induced nPKCη phosphorylation. In addition, when platelets were
activated with 2MeSADP under stirring conditions, although nPKCη was
phosphorylated within 30 s by ADP receptors, it was also dephosphorylated by
activated integrin αIIbβ3 mediated outside-in
signaling. Moreover, in the presence of SC-57101, a
αIIbβ3 receptor antagonist, nPKCη
dephosphorylation was inhibited. Furthermore, in murine platelets lacking
PP1cγ, a catalytic subunit of serine/threonine phosphatase,
αIIbβ3 failed to dephosphorylate nPKCη.
Thus, we conclude that ADP activates nPKCη via P2Y1 receptor
and is subsequently dephosphorylated by PP1γ phosphatase activated by
αIIbβ3 integrin. In addition, pretreatment of
platelets with η-RACK antagonistic peptides, a specific inhibitor of
nPKCη, inhibited ADP-induced thromboxane generation. However, these
peptides had no affect on ADP-induced aggregation when thromboxane generation
was blocked. In summary, nPKCη positively regulates agonist-induced
thromboxane generation with no effects on platelet aggregation.Platelets are the key cellular components in maintaining hemostasis
(1). Vascular injury exposes
subendothelial collagen that activates platelets to change shape, secrete
contents of granules, generate thromboxane, and finally aggregate via
activated αIIbβ3 integrin, to prevent further
bleeding (2,
3). ADP is a physiological
agonist of platelets secreted from dense granules and is involved in feedback
activation of platelets and hemostatic plug stabilization
(4). It activates two distinct
G-protein-coupled receptors (GPCRs) on platelets, P2Y1 and
P2Y12, which couple to Gq and Gi,
respectively
(5–8).
Gq activates phospholipase Cβ (PLCβ), which leads to
diacyl glycerol (DAG)2
generation and calcium mobilization
(9,
10). On the other hand,
Gi is involved in inhibition of cAMP levels and PI 3-kinase
activation (4,
6). Synergistic activation of
Gq and Gi proteins leads to the activation of the
fibrinogen receptor integrin αIIbβ3.
Fibrinogen bound to activated integrin αIIbβ3
further initiates feed back signaling (outside-in signaling) in platelets that
contributes to the formation of a stable platelet plug
(11).Protein kinase Cs (PKCs) are serine/threonine kinases known to regulate
various platelet functional responses such as dense granule secretion and
integrin αIIbβ3 activation
(12,
13). Based on their structure
and cofactor requirements, PKCs are divided in to three classes: classical
(cofactors: DAG, Ca2+), novel (cofactors: DAG) and atypical
(cofactors: PIP3) PKC isoforms
(14). All the members of the
novel class of PKC isoforms (nPKC), viz. nPKC isoforms δ, θ,
η, and ε, are expressed in platelets
(15), and they require DAG for
activation. Among all the nPKCs, PKCδ
(15,
16) and PKCθ
(17–19)
are fairly studied in platelets. Whereas nPKCδ is reported to regulate
protease-activated receptor (PAR)-mediated dense granule secretion
(15,
20), nPKCθ is activated
by outside-in signaling and contributes to platelet spreading on fibrinogen
(18). On the other hand, the
mechanism of activation and functional role of nPKCη is not addressed as
yet.PKCs are cytoplasmic enzymes. The enzyme activity of PKCs is modulated via
three mechanisms (14,
21): 1) cofactor binding: upon
cell stimulus, cytoplasmic PKCs mobilize to membrane, bind cofactors such as
DAG, Ca2+, or PIP3, release autoinhibition, and attain an active
conformation exposing catalytic domain of the enzyme. 2) phosphorylations:
3-phosphoinositide-dependent kinase 1 (PDK1) on the membrane phosphorylates
conserved threonine residues on activation loop of catalytic domain; this is
followed by autophosphorylations of serine/threonine residues on turn motif
and hydrophobic region. These series of phosphorylations maintain an active
conformation of the enzyme. 3) RACK binding: PKCs in active conformation bind
receptors for activated C kinases (RACKs) and are lead to various subcellular
locations to access the substrates
(22,
23). Although various leading
laboratories have elucidated the activation of PKCs, the mechanism of
down-regulation of PKCs is not completely understood.The premise of dynamic cell signaling, which involves protein
phosphorylations by kinases and dephosphorylations by phosphatases has gained
immense attention over recent years. PP1, PP2A, PP2B, PHLPP are a few of the
serine/threonine phosphatases reported to date. Among them PP1 and PP2
phosphatases are known to regulate various platelet functional responses
(24,
25). Furthermore, PP1c, is the
catalytic unit of PP1 known to constitutively associate with
αIIb and is activated upon integrin engagement with
fibrinogen and subsequent outside-in signaling
(26). Among various PP1
isoforms, recently PP1γ is shown to positively regulate platelet
functional responses (27).
Thus, in this study we investigated if the above-mentioned phosphatases are
involved in down-regulation of nPKCη. Furthermore, reports from other cell
systems suggest that nPKCη regulates ERK/JNK pathways
(28). In platelets ERK is
known to regulate agonist induced thromboxane generation
(29,
30). Thus, we also
investigated if nPKCη regulates ERK phosphorylation and thereby
agonist-induced platelet functional responses.In this study, we evaluated the activation of nPKCη downstream of ADP
receptors and its inactivation by an integrin-associated phosphatase
PP1γ. We also studied if nPKCη regulates functional responses in
platelets and found that this isoform regulates ADP-induced thromboxane
generation, but not fibrinogen receptor activation in platelets. 相似文献
77.
Ions play a modulatory role in many proteins. Kainate receptors, members of the ionotropic glutamate receptor family, require both monovalent anions and cations in the extracellular milieu for normal channel activity. Molecular dynamics simulations and extensive relative binding free energy calculations using thermodynamic integration were performed to elucidate the rank order of binding of monovalent cations, using x-ray crystal structures of the GluR5 kainate receptor dimers with bound cations from the alkali metal family. The simulations show good agreement with experiments and reveal that the underlying backbone structure of the binding site is one of the most rigid regions of the protein. A simplified model where the partial charge of coordinating oxygens was varied suggests that selectivity arises from the presence of two carboxylate groups. Furthermore, using a potential of mean force derived from umbrella sampling, we show that the presence of cations lower the energy barrier for anion approach and binding in the buried anion binding cavity. 相似文献
78.
79.
Kinetic measurements of enzyme activity indicate that type I pantothenate kinase from Mycobacterium tuberculosis has dual substrate specificity for ATP and GTP, unlike the enzyme from Escherichia coli, which shows a higher specificity for ATP. A molecular explanation for the difference in the specificities of the two homologous enzymes is provided by the crystal structures of the complexes of the M. tuberculosis enzyme with (1) GMPPCP and pantothenate, (2) GDP and phosphopantothenate, (3) GDP, (4) GDP and pantothenate, (5) AMPPCP, and (6) GMPPCP, reported here, and the structures of the complexes of the two enzymes involving coenzyme A and different adenyl nucleotides reported earlier. The explanation is substantially based on two critical substitutions in the amino acid sequence and the local conformational change resulting from them. The structures also provide a rationale for the movement of ligands during the action of the mycobacterial enzyme. Dual specificity of the type exhibited by this enzyme is rare. The change in locations of ligands during action, observed in the case of the M. tuberculosis enzyme, is unusual, so is the striking difference between two homologous enzymes in the geometry of the binding site, locations of ligands, and specificity. Furthermore, the dual specificity of the mycobacterial enzyme appears to have been caused by a biological necessity. 相似文献
80.
Mungbean, Vigna radiata (L.) Wilczek is an important pulse crop that is widely cultivated in semi- arid tropics. The crop is attacked by various
soil-borne pathogens like Rhizoctonia solani, which causes dry rot disease and seriously affects its productivity. Earlier we characterized the non-expressor of pathogenesis
related gene-1(BjNPR1) of mustard, Brassica juncea, the counterpart of AtNPR1 of Arabidopsis thaliana. Here, we transformed mungbean with BjNPR1 via Agrobacterium tumefaciens. Because of the recalcitrant nature of mungbean, the effect of some factors like Agrobacterium tumefaciens strains (GV2260 and LBA4404), pH, l-cysteine and tobacco leaf extract was tested in transformation. The transgenic status of 15 plants was confirmed by PCR using
primers for nptII. The independent integration of T-DNA in transgenic plants was analyzed by Southern hybridization with an nptII probe and the expression of BjNPR1 was confirmed by RT–PCR. Some of the T0 plants were selected for detached leaf anti-fungal bioassay using the fungus Rhizoctonia solani, which showed moderate to high level of resistance depending on the level of expression of BjNPR1. The seedling bioassay of transgenic T2 plants indicated resistance against dry rot disease caused by R. solani. 相似文献