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Query: UMLS:C0282612 (
PIN
)
2,291
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The neurotransmitter functions of nitric oxide are dependent on dynamic regulation of its biosynthetic enzyme,
neuronal nitric oxide synthase
(
nNOS
). By means of a yeast two-hybrid screen, a 10-kilodalton protein was identified that physically interacts with and inhibits the activity of
nNOS
. This inhibitor, designated
PIN
, appears to be one of the most conserved proteins in nature, showing 92 percent amino acid identity with the nematode and rat homologs. Binding of
PIN
destabilizes the
nNOS
dimer, a conformation necessary for activity. These results suggest that
PIN
may regulate numerous biological processes through its effects on nitric oxide synthase activity.
...
PMID:PIN: an associated protein inhibitor of neuronal nitric oxide synthase. 886 15
In neuronal cells, nitric oxide (NO) is synthesized by
neuronal nitric oxide synthase
(
nNOS
) and performs various functions including neurotransmission, modulation of nociception and long-term potentiation and memory. Recently, a novel 89-amino acid protein, designated
PIN
, has been shown to interact specifically with
nNOS
and inhibit
nNOS
dimerization. In this report, we investigated the distribution and the correlation of
PIN
with that of
nNOS
in various brain regions of rats. Amplified
PIN
cDNA from brain tissues revealed an open reading frame which is identical to that of human
PIN
. Northern blotting of brain RNA with
PIN
cDNA produced two transcripts, a major 0.9 kb and a minor 2.5 kb. Expression of
PIN
cDNA as a fusion protein in E. coli produced a 10 kDa protein which interacted specifically with pure
nNOS
in an overlay assay. Immunoblotting of rat brain regions with
nNOS
antibody demonstrated strong expression in the cerebellum, moderate expression in the cerebral cortex, midbrain, medulla and hippocampus with only weak expression in the spinal cord. By comparison,
PIN
expression was stronger in the cerebral cortex, midbrain, hippocampus and medulla compared with that of cerebellum and spinal cord. We conclude that
PIN
interacts strongly with
nNOS
and is constitutively expressed in various brain regions. The dissimilarity between
nNOS
and
PIN
expressions in various brain regions may explain the well known differences in NOS activity between these regions. Our results also suggest that
PIN
may serve other functions other than
nNOS
inhibition.
...
PMID:Distribution of protein inhibitor of neuronal nitric oxide synthase in rat brain. 929 62
The structure of the
neuronal nitric oxide synthase
inhibitory protein,
PIN
(protein inhibitor of
nNOS
), has been determined by NMR spectroscopy. Two N-terminal antiparallel alpha-helices pack against a four-stranded antiparallel beta-sheet in the C-terminal region of the protein, forming a two-layer alpha/beta plait. The three dimensional structure of
PIN
resembles the fold of the B-chain of aspartylglucosaminidase. A non-prolyl cis peptide bond was found between Pro 52 and Thr 53 of the protein.
PIN
has a large solvent-exposed hydrophobic surface that contains a cavity and is rimmed with positive charges. This surface may serve as the primary target-binding region for this multi-functional regulatory protein.
...
PMID:Solution structure of a protein inhibitor of neuronal nitric oxide synthase. 980 41
PIN
, an 89-amino-acid polypeptide found in a rat hippocampal cDNA library using the yeast two-hybrid system and various
neuronal nitric oxide synthase
(
nNOS
) fragments as bait, was reported to be an inhibitor of
nNOS
(Science 274, 774-778, 1996).
PIN
reportedly inhibited
nNOS
selectively and did not interact with either the endothelial or inducible nitric oxide synthase isoforms. Inhibition was attributed to the ability of
PIN
to dissociate the catalytically active
nNOS
homodimer.
PIN
is a dynein light chain (J. Biol. Chem. 271, 19358-19366, 1996), which suggested that
PIN
may serve as an axonal transport protein for
nNOS
. We have synthesized a rat
PIN
cDNA by recursive polymerase chain reaction and have expressed the protein in Escherichia coli. Recombinant
PIN
is a folded dimeric, mostly alpha-helical protein with a single deeply buried tryptophan residue. We have also expressed and purified the
nNOS
fragment to which
PIN
reportedly binds (residues 163-245). This recombinant peptide has a disordered secondary structure. Gel-filtration experiments show that
PIN
binds to both the full-length
nNOS
and
nNOS
fragment. However,
PIN
neither inhibits
nNOS
activity nor dissociates the
nNOS
dimer into monomeric species.
PIN
thus possibly functions as a dynein light chain involved in
nNOS
axonal transport but is not an inhibitor of the enzyme. Our results agree with the proposal (Cell 82, 743-752, 1995) that the
PIN
recognition sequence in
nNOS
both lies outside the catalytic core and is not part of the monomer-monomer contact region.
...
PMID:Binding of dynein light chain (PIN) to neuronal nitric oxide synthase in the absence of inhibition. 980 72
Nitric oxide (NO) is involved in many physiological processes. In cancer, low levels of NO are thought to enhance tumour progression and metastasis. NO is generated from arginine by NO synthase (NOS); the Ca2+-dependent neuronal isoform or
nNOS
(expressed by neurones and inhibited by the protein inhibitor of
nNOS
,
PIN
), is also expressed by cultured normal melanocytes and by all malignant melanoma (MM) cell lines. We studied the expression of
nNOS
and
PIN
in paraffin sections of 177 and 58 pigment cell lesions, respectively, using immunohistochemistry; the activity of the necessary cofactor NADPH was studied in 26 frozen cases. Normal melanocytes in situ lacked
nNOS
and
PIN
expression, but were NADPH +. Almost half of common acquired benign naevi expressed
nNOS
; however, halo naevi and congenital naevi expressed
nNOS
very frequently. Dysplastic naevi and MM showed variable
nNOS
immunoreactivity in 72% and 83% of cases, respectively. Early (Clark I and Clark II) MM displayed
nNOS
staining most frequently, and all MM with an invasive radial growth phase expressed
nNOS
in the papillary dermis. In contrast, only 67% of metastatic MM were
nNOS
+.
PIN
was coexpressed with
nNOS
in 40 of 58 lesions. NADPH activity was present in all
nNOS
+ naevi, but in two malignant cases, NADPH activity was not accompanied by
nNOS
expression. We conclude that
nNOS
expression is induced de novo in benign and malignant pigment cell lesions which have all the requirements (NADPH,
PIN
) necessary for the production and modulation of NO. We postulate that the frequent expression of
nNOS
in the junctional part of dysplastic naevi may be responsible for their particular histological features. NO generated by the neoplastic dermal cells in the invasive radial growth phase may contribute to the increased number of blood vessels in the papillary dermis.
...
PMID:Expression of the neuronal isoform of nitric oxide synthase (nNOS) and its inhibitor, protein inhibitor of nNOS, in pigment cell lesions of the skin. 1041 10
The structure of the protein known both as
neuronal nitric oxide synthase
inhibitory protein,
PIN
(protein inhibitor of
nNOS
), and also as the 8 kDa dynein light chain (LC8) has been solved by X-ray diffraction. Two
PIN
/LC8 monomers related by a two-fold axis form a rectangular dimer. Two pairs of alpha-helices cover opposite faces, and each pair of helices packs against a beta-sheet with five antiparallel beta-strands. Each five-stranded beta-sheet contains four strands from one monomer and a fifth strand from the other monomer. A 13-residue peptide from
nNOS
is bound to the dimer in a deep hydrophobic groove as a sixth antiparallel beta-strand. The structure provides key insights into dimerization of and peptide binding by the multifunctional
PIN
/LC8 protein.
...
PMID:Structure of the PIN/LC8 dimer with a bound peptide. 1042 49
Cyclooxygenase 2 (COX-2) inhibits nerve growth factor (NGF) withdrawal apoptosis in differentiated PC12 cells. The inhibition of apoptosis by COX-2 was concomitant with prevention of caspase 3 activation. To understand how COX-2 prevents apoptosis, we used cDNA expression arrays to determine whether COX-2 regulates differential expression of apoptosis-related genes. The expression of dynein light chain (DLC) (also known as protein inhibitor of neuronal nitric oxide synthase [
PIN
]) was significantly stimulated in PC12 cells overexpressing COX-2. The COX-2-dependent stimulation of DLC expression was, at least in part, mediated by prostaglandin E(2). Overexpression of DLC also inhibited NGF withdrawal apoptosis in differentiated PC12 cells. Stimulation of DLC expression resulted in an increased association of DLC/
PIN
with
neuronal nitric oxide synthase
(
nNOS
), thereby reducing
nNOS
activity. Furthermore,
nNOS
expression and activity were significantly increased in differentiated PC12 cells after NGF withdrawal. This increased
nNOS
activity as well as increased
nNOS
dimer after NGF withdrawal were inhibited by COX-2 or DLC/
PIN
overexpression. An
nNOS
inhibitor or a membrane-permeable superoxide dismutase (SOD) mimetic protected differentiated PC12 cells from NGF withdrawal apoptosis. In contrast, NO donors induced apoptosis in differentiated PC12 cells and potentiated apoptosis induced by NGF withdrawal. The protective effects of COX-2 on apoptosis induced by NGF withdrawal were also overcome by NO donors. These findings suggest that COX-2 promotes cell survival by a mechanism linking increased expression of prosurvival genes coupled to inhibition of NO- and superoxide-mediated apoptosis.
...
PMID:Cyclooxygenase 2 promotes cell survival by stimulation of dynein light chain expression and inhibition of neuronal nitric oxide synthase activity. 1104 52
In skeletal muscle fibers, nitric oxide is synthesized by
neuronal nitric oxide synthase
(
nNOS
), which normally associates with the dystrophin complex in close proximity to the sarcolemma. Many reports have documented that very low levels of
nNOS
protein exist in muscle fibers of Duchenne muscular dystrophy (DMD) patients. In this study we investigated the functional significance of
PIN
(protein inhibitor of
nNOS
) in targeting of
nNOS
to the sarcolemma and the association between
nNOS
and the dystrophin complex in normal and dystrophic muscle fibers. Northern blotting for
PIN
mRNA in normal mouse muscles and muscles of mdx mice (an animal model of DMD) revealed a significant rise in
PIN
mRNA in dystrophic muscles compared with normal muscles. Immunohistochemical analysis showed that, in normal mouse muscle fibers,
PIN
expression was localized at the sarcolemma, peripheral nuclei, and the sarcoplasm. By comparison,
PIN
protein in muscles from mdx mice was more concentrated around the sarcolemma and central nuclei. The presence of
PIN
protein expression in muscles from mdx mice was evident despite the significant reduction in
nNOS
and dystrophin protein expressions in these fibers. In muscle sections of DMD patients, the absence of
nNOS
protein expression was accompanied by maintained
PIN
expression. Prominent
PIN
expression was also detectable in macrophages infiltrating dystrophic muscle fibers both in mdx mice and DMD patients. These results suggest that
PIN
expression in muscles from mdx mice and DMD patients is controlled by factors different from those involved in the regulation of
nNOS
and dystrophin. Moreover, our results indicate that
PIN
is not an integral component of the dystrophin complex inside skeletal muscle fibers.
...
PMID:Expression and localization of protein inhibitor of neuronal nitric oxide synthase in Duchenne muscular dystrophy. 1174 48
Cortical spreading depression (CSD) is characterized by slowly propagating waves of neuronal/astrocytic depolarization and metabolic changes, followed by a period of quiescent neuronal and electroencephalographic activity. CSD acts as a preconditioning stimulus in brain, reducing cell death when elicited up to several days prior to an ischemic insult. Precise mechanisms associated with this neuroprotection are not known, although CSD increases the expression of a number of potentially neuroprotective genes/proteins. The nitric oxide (NO) system may be of particular importance, as it is acutely activated and chronically up-regulated in cerebral cortex by CSD, and NO can ameliorate and exacerbate cell death under different conditions. Several molecules have recently been identified that modulate the production and/or cellular actions of NO, but it is not known whether their expression is altered by CSD. Therefore, the present study examined the effect of CSD on the spatiotemporal expression of
PIN
, CAPON, PSD-95, Mn-SOD and Cu/Zn-SOD mRNA in the rat brain. In situ hybridization using specific [35S]-labelled oligonucleotides revealed that levels of
PIN
mRNA were significantly increased in the cortex and claustrum ( approximately 30-180%; p </= 0.01) after 6 h and 1 and 2 days, but were again equivalent to contralateral (control) cortical values at 7, 14 and 28 days. CAPON mRNA levels were increased ( approximately 30-180%; p </= 0.05) in the ipsilateral cortical hemisphere at 6 h and 2 days post treatment, but not at the other times examined. In contrast, levels of PSD-95, Mn- and Cu/Zn-SOD mRNA were not altered at any time after CSD. These results suggest that following CSD,
nNOS
activity and NO levels may be tightly regulated by both transcriptional and translational alterations in a range of
nNOS
adaptor proteins, which may contribute to CSD-induced neuroprotection against subsequent ischemia.
...
PMID:Neuronal-NOS adaptor protein expression after spreading depression: implications for NO production and ischemic tolerance. 1471 93
Cellulose membrane supported peptide arrays, prepared according to the Spot method, allow the rapid identification and characterization of protein-protein interaction sites. Here, the method was used to screen reactive peptides from different proteins that bind to a single molecule, the
PIN
protein.
PIN
possesses two binding grooves, that have been shown to interact with several targets, including neuronal NO synthase, dynein intermediate chain, myosin V, the proapoptotic protein Bim, the scaffolding proteins DAP1alpha and gephyrin, and the transcription factor NRF-1. Arrays of peptides representing sequences of these targets were probed for reactivity with GST-tagged
PIN
, enabling the precise identification of binding motifs. Binding motifs were then minimized to seven or eight amino acid long peptides: YSKETQT for dynein IC, CDKSTQT for Bim, KDTGIQVD for
nNOS
, QSVGVQV for DAP1alpha and EDKNTMTD for myosin V. Alascan and substitution analysis provided proof that the Gln residue is critical for the interaction and cannot be easily replaced. Positions -1 and +1, just flanking the pivotal Gln, are also important; they consist of hydrophobic residues (Thr, Val) that could only be replaced by hydrophobic or aromatic amino acids. Position -4 is also critical for binding, with its Asp or Ser being replaceable to some extent. Alignment of sequences of proteins known to bind
PIN
shows that the most frequent amino acids in the motif are DKGTQT, consistent with the Spot results. We postulate that the degenerate character of binding to
PIN
is based on the propensity of several sequences to adopt a beta-strand conformation that allows the Gln residue to position itself in the
PIN
channel and on the conformational breathing of the
PIN
binding groove.
...
PMID:Cellulose membrane supported peptide arrays for deciphering protein-protein interaction sites: the case of PIN, a protein with multiple natural partners. 1538 21
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