Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:2.7.10.1 (
ERK
)
95,504
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Hirschsprung's disease (aganglionic megacolon, HSCR) is a frequent condition of unknown origin (1/5000 live births) resulting in intestinal obstruction in neonates and severe constipation in infants and adults. In the majority of cases (80%), the aganglionic tract involves the rectum and the sigmoid colon only (short segment HSCR), while in 20% of cases it extends toward the proximal end of the colon (long segment HSCR). In a previous study, we mapped a gene for long segment familial HSCR to the proximal long arm of chromosome 10 (10q11.2). Further linkage analyses in familial HSCR have suggested tight linkage of the disease gene to the
RET
protoncogene mapped to chromosome 10q11.2. Recently, nonsense and missense mutations of
RET
have been identified in HSCR patients. However, the question of whether mutations of the
RET
gene account for both long segment and short segment familial HSCR remained unanswered. We have performed genetic linkage analyses in 11 long segment HSCR families and eight short segment HSCR families using microsatellite DNA markers of chromosome 10q. In both anatomical forms, tight pairwise linkage with no recombinant events was observed between the RET proto-oncogene locus and the disease locus (
Zmax
= 2.16 and
Zmax
= 5.38 for short segment and long segment HSCR respectively at 0 = 0%) Multipoint linkage analyses performed in the two groups showed that the maximum likelihood estimate was at the
RET
locus. Moreover, we show that point mutations of the RET proto-oncogene occur either in long segment or in short segment HSCR families and we provide evidence for incomplete penetrance of the disease causing mutation. These data suggest that the two anatomical forms of familial HSCR, which have been separated on the basis of clinical and genetic criteria, may be regarded as the variable clinical expression of mutations at the
RET
locus.
...
PMID:Long segment and short segment familial Hirschsprung's disease: variable clinical expression at the RET locus. 781 16
Tight linkage with the RET proto-oncogene (
Zmax
= 3.41 at theta = 0.00), analysis of recombinants and detection of a familial microdeletion in a large pedigree restrict the mapping of the Hirschsprung (HSCR) gene previously localized on proximal 10q. The molecular characterization of the familial microdeletion and of 3 additional cytogenetically visible de novo deletions, isolated in somatic cell hybrids, identify a smallest region of overlap of 250 Kb. This contains the RET proto-oncogene where missense mutations causing multiple endocrine neoplasia type 2A (MEN 2A) phenotype were recently found. The pentagastrin test (which detects preclinical forms of MEN 2A or B) is negative in adult HSCR patients with deletions of the
RET
gene. This represents a good candidate for the search of mutations causing HSCR.
...
PMID:Close linkage with the RET protooncogene and boundaries of deletion mutations in autosomal dominant Hirschsprung disease. 790 8
Ellis-van Creveld syndrome (EVC) is an autosomal recessive disorder characterized by disproportionate dwarfism, polydactyly, and congenital heart disease. This rare disorder is found with increased frequency among the Old Order Amish community in Lancaster County, Pennsylvania. We have used linkage analysis to localize the gene responsible for the EVC phenotype in nine interrelated Amish pedigrees and three unrelated families from Mexico, Ecuador, and Brazil. We now report the linkage for the Ellis-van Creveld syndrome gene to markers on the distal short arm of human chromosome 4, with
Zmax
= 6.91 at theta = 0.02 for marker HOX7, in a region proximal to the
FGFR3
gene responsible for the achondroplasia phenotype.
...
PMID:The gene for the Ellis-van Creveld syndrome is located on chromosome 4p16. 866 Oct 97
Chlamydia trachomatis is the most common bacterial sexually transmitted infection worldwide.
Azithromycin
is effective in treating Chlamydia infection; however, resistance to this antibiotic is increasing, and it is important that new therapeutic strategies are developed. Here, we demonstrated that inhibitors targeting each kinase in the
ERK
/RSK cascade significantly decreased the size and number of inclusions, as well as the number of infectious progeny. The suppressive effects of the inhibitors were observed across the Chlamydia serotypes D, E, F, and L1 and across Hela, McCoy, and Vero host cells. When combined with azithromycin, all the inhibitors exerted a synergistic suppressive effect on Chlamydia infection. Knockdown experiments using siRNA demonstrated that ERK1/2 and RSK1 were crucial for Chlamydia infection. Moreover, BVD-523, a first-in-class ERK1/2 inhibitor currently undergoing a phase II clinical trial, suppressed Chlamydia infection both in cell culture and in a mouse model. These observations demonstrated not only that the
ERK
/RSK pathway plays a critical role in Chlamydia infection, but also that these kinases have potential as targets for host-directed therapy against Chlamydia trachomatis.
...
PMID:Inhibition of the ERK/RSK kinase cascade limits Chlamydia trachomatis infection. 3291 51
COVID-2019 pandemic is affecting people worldwide in the absence of an effective treatment strategy. Several suggestive therapeutic options through drug repurposing are recommended, but a complete consensus is not reached. A combination of Hydroxychloroquine (HCQ) and
Azithromycin
(
AZM
) has been widely tried and discussed but its administration has also led to potential adversities in patients. Studies are suggesting that most prominent adverse event with HCQ and
AZM
combination is QT interval prolongation. We studied interaction of HCQ with
AZM
and subsequent effect of this drug combination on QT interval prolongation. We performed system biological investigation of HCQ and
AZM
targets and screened important targets and pathways possibly involved in QT interval prolongation. The best core hub protein drug targets involved in QT interval prolongation were identified as HSP90AA1 exclusively associated with HCQ, while AKT1 exclusively associated with
AZM
on the basis of node degree value. It was found that PI3K/Akt, VEGF,
ERBB2
pathways must be given consideration for understanding the role of HCQ and
AZM
in QT interval prolongation. Conclusion: Computational methods have certain limitations based on source database coverage and prediction algorithms and therefore this data needs experimental correlation to draw final conclusion, but current findings screen targets for QT interval prolongation associated with HCQ and
AZM
. These proteins and pathways may provide ways to reduce this major risk associated with this combination.
...
PMID:System biological investigations of hydroxychloroquine and azithromycin targets and their implications in QT interval prolongation. 3309 39
