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

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Query: UMLS:C0026850 (muscular dystrophy)
5,870 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Calpain was first discovered 30 years ago. Two major isoforms were subsequently isolated and purified. The presence of an endogenous protein inhibitor, calpastatin, was later discovered. Calpain activity is tightly regulated by Ca(2+). At physiological levels of Ca(2+), the role of calpain remains poorly understood, but is believed to be involved in mitosis and muscle cell differentiation. Calpain has also been implicated in various membrane fusion events through remodeling of the cytoskeletal network. Calpain activation has been shown to be increased during normal aging and in muscular dystrophy, cataract, arthritis and Alzheimer's disease, and in acute traumas such as traumatic brain injury (TBI), spinal cord injury and cerebral and cardiac ischemia. Early work on calpain inhibitors was limited to protein inhibitors and other nonselective enzyme inhibitors. Peptidyl aldehydes such as leupeptin and antipain are also among the earliest reported calpain inactivators. Irreversible inhibitors such as the E64 family have also been studied, and peptidyl halomethanes and diazomethanes have long been used as protease inhibitors. A variety of calpain inhibitors are under development. From a therapeutic perspective, calpain inhibitors may have several advantages over other more conventional targets such as ion channel blockers and glumate antagonists, since calpain proteolysis represents a later component of a pathway mediating cell death initiated by excitotoxicity and elevated Ca(2+) levels. Although the potential clinical utility of calpain inhibitors seems well established, a number of important considerations remain to be addressed. The role of other proteolytic cascades contributing to neuronal cell damage following TBI must also be considered.
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PMID:Potential contribution of proteases to neuronal damage. 1561 63

Fukuyama-type congenital muscular dystrophy (FCMD) is characterized by muscular dystrophy and cortical dysgenesis of the cerebrum and cerebellum. We investigated the extent and nature of tauopathy in the brains of 7 postfetal (14-34 years of age) and 2 fetal (18- and 20-week gestational age) FCMD cases. In all postfetal cases, tauopathy was found in the areas of cortical dysgenesis in the cerebrum, in addition to predictable sites such as the hippocampus. In fetal cases, the neuropil of malformed cerebral cortex was diffusely immunostained with anti-aberrantly phosphorylated tau antibodies. By immunoelectron microscopy, the epitope of the antibodies was associated with microtubule-like bundles within cellular processes protruding through disrupted glia limitans. In Western blot analysis, a unique 50-kDa band of tau was detected in a fetal and a postfetal case. In addition, 3 to 4 tau bands of 60 to 68 kD, similar to tau in Alzheimer disease, were also detected in the latter. After dephosphorylation, the insoluble tau from the fetal and the postfetal cases showed highly similar immunoblotting patterns. This anomalous phosphorylation of tau may be related to the development of the cortical dysgenesis in FCMD and may shed light on the biologic function of tau in the development of the central nervous system.
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PMID:Unique tauopathy in Fukuyama-type congenital muscular dystrophy. 1631 22

The calpains represent a well-conserved family of calcium-dependent cysteine proteases. They consist of several ubiquitous and tissue specific isoforms and exhibit broad substrate specificity influencing many aspects of cell physiology including migration, proliferation and apoptosis. Calpain activity in vivo is tightly regulated by its natural endogenous inhibitor calpastatin. Calpastatin specifically inhibits calpain and not other cysteine proteases by interaction with several sites on the calpain molecule. Inappropriate regulation of the calpain-calpastatin proteolytic system is associated with several important human pathological disorders including muscular dystrophy, cancer, Alzheimer's disease, neurological injury, ischaemia/reperfusion injury, atherosclerosis, diabetes and cataract formation. Recent advances in elucidating the tertiary structures of calpain 2 and its regulatory domain calpain 4, together with identification of new modes of regulating calpain activity provide new opportunities for the design of novel calpain inhibitors. Several classes of inhibitors, including peptidyl epoxide, aldehyde, and ketoamide inhibitors, targeting the active site have proven effective against the calpains and are in the process of evaluation in animal models of human disease. However, a major limitation to the clinical use of such inhibitors is their lack of specificity among cysteine proteases and other proteolytic enzymes. The development of a new class of calpain inhibitors that interact with domains outside of the catalytic site of calpain may provide greater specificity and therapeutic potential.
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PMID:Calpain inhibition: a therapeutic strategy targeting multiple disease states. 1647 52

The Nematode Caenorhabditis elegans (C. elegans) is an established model increasingly used for studying human disease pathogenesis. C. elegans models are based on the mutagenesis of human disease genes conserved in this Nematode or on the transgenesis with disease genes not conserved in C. elegans. Genetic examinations will give new insights on the cellular and molecular mechanisms that are altered in some neurodegenerative diseases like Duchenne's muscular dystrophy, Huntington's disease and Alzheimer's disease. C. elegans may be used for primary screening of new compounds that may be used as drugs in these diseases.
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PMID:[A Nematode Nobel Prize: Caenorhabditis elegans]. 1709 49

The concept of stem cell therapy, the repair of damaged or diseased tissue by transplantation of healthy cells, is deceptively simple. This simplicity has led to the hype among desperate patients, their doctors and the media: it would seem that every ailment can be treated with stem cells. At this time, however, the scientific truth is mostly disappointing. The recent claim from Korea of a major breakthrough - the ability to grow stem cells from cloned embryos - turned out to be fraudulent. With the exception ofapplications in haematologic diseases, skin wounds, and bone and cartilage diseases, most of the putative therapeutic applications of stem cell therapy are still under preclinical investigation. These include the treatment of Parkinson's and Alzheimer's disease, paraplegia, cerebral infarction, amyotrophic lateral sclerosis, multiple sclerosis and muscular dystrophy. The treatment of cardiac infarction is currently being investigated in clinical trials.
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PMID:[Progress and clashes in stem cell therapy research]. 1722 33

Mitochondrial Ca(2+) homeostasis is today at the center of wide interest in the scientific community because of its role both in the modulation of numerous physiological responses and because of its involvement in cell death. In this review, we briefly summarize a few basic features of mitochondrial Ca(2+) handling in vitro and within living cells, and its involvement in the modulation of Ca(2+)-dependent signaling. We then discuss the role of mitochondrial Ca(2+) in the control of apoptotic death, focusing in particular on the effects of pro- and anti-apoptotic proteins of the Bcl-2 family. Finally, the potential involvement of Ca(2+) and mitochondria in the development of two diseases, Ullrich muscular dystrophy and familial Alzheimer's disease, is briefly discussed.
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PMID:Mitochondrial Ca2+ as a key regulator of cell life and death. 1743 19

Inclusion body myopathy with Paget disease of the bone (PDB) and/or frontotemporal dementia (IBMPFD, OMIM 167320), is a progressive autosomal dominant disorder caused by mutations in the Valousin-containing protein (VCP, p97 or CDC48) gene. IBMPFD can be difficult to diagnose. We assembled data on a large set of families to illustrate the number and type of misdiagnoses that occurred. Clinical analysis of 49 affected individuals in nine families indicated that 42 (87%) of individuals had muscle disease. The majority were erroneously diagnosed with limb girdle muscular dystrophy (LGMD), facioscapular muscular dystrophy, peroneal muscular dystrophy, late adult onset distal myopathy, spinal muscular atrophy, scapuloperoneal muscular dystrophy, or amyotrophic lateral sclerosis (ALS) among others. Muscle biopsies showed rimmed vacuoles characteristic of an inclusion body myopathy in 7 of 18 patients (39%), however, inclusion body myopathy was correctly diagnosed among individuals in only families 5 and 15. Frontotemporal dementia (FTD) was diagnosed in 13 individuals (27%) at a mean age of 57 years (range 48.9-60.2 years); however, several individuals had been diagnosed with Alzheimer disease. Histopathological examination of brains of three affected individuals revealed a pattern of ubiquitin positive neuronal intranuclear inclusions and dystrophic neurites. These families expand the clinical phenotype in IBMPFD, a complex disorder caused by mutations in VCP. The presence of PDB in 28 (57%) individuals suggests that measuring serum alkaline phosphatase (ALP) activity may be a useful screen for IBMPFD in patients with myopathy.
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PMID:Clinical studies in familial VCP myopathy associated with Paget disease of bone and frontotemporal dementia. 1826 Jan 32

Growth hormone (GH) exercises its growth effects by stimulating insulin-like growth factor I (IGF-I) synthesis in the liver (endocrine IGF-I) and by inducing chondrocyte differentiation/replication and local production of IGF-I (paracrine/autocrine IGF-I). Injectable recombinant human (rh)IGF-I (mecasermin) has been available for nearly 20 years for treatment of the rare instances of GH insensitivity caused by GH receptor defects or GH-inhibiting antibodies. Full restoration of normal growth, as occurs with rhGH replacement of GH deficiency, is not seen, presumably because only the endocrine deficiency is addressed. RhIGF-I has also been effective as an insulin-sensitizing agent in severe insulin-resistant conditions. Although the insulin-sensitizing effect may benefit both type 1 and type 2 diabetes, there are no ongoing clinical trials because of concern about risk of retinopathy and other complications. Promotion of rhIGF-I for treatment of idiopathic short stature has been intensive, with neither data nor rationale suggesting that there might be a better response than has been documented with rhGH. Other applications that have either been considered or are undergoing clinical trial are based on the ubiquitous tissue-building properties of IGF-I and include chronic liver disease, cystic fibrosis, wound healing, AIDS muscle wasting, burns, osteoporosis, Crohn's disease, anorexia nervosa, Werner syndrome, X-linked severe combined immunodeficiency, Alzheimer's disease, muscular dystrophy, amyotrophic lateral sclerosis, hearing loss prevention, spinal cord injury, cardiovascular protection, and prevention of retinopathy of prematurity. The most frequent side effect is hypoglycemia, which is readily controlled by administration with meals. Other common adverse effects involve hyperplasia of lymphoid tissue, which may require tonsillectomy/adenoidectomy, accumulation of body fat, and coarsening of facies. The anti-apoptotic properties of IGF-I are implicated in cancer pathogenesis-a concern for long-term therapy. It is unlikely that mecasermin will be useful beyond the orphan indications of severe insulin resistance and GH insensitivity.
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PMID:Mecasermin (recombinant human insulin-like growth factor I). 1919 69

The cathepsins are a family of lysosomal cysteine proteases that are abundant in living cells and play important roles in intracellular proteolysis. Cathepsins are necessary for cell survival, and disruption of regulation of the activity of these enzymes causes serious diseases including allergy, atherosclerosis, muscular dystrophy, Alzheimer's disease and cancer. Therefore, the design of inhibitors for cathepsins is important in development of therapeutic agents. This review will focus on the features of the tertiary structure and substrate-binding specificity of cathepsins B, L, S and K, based on X-ray crystal structures of their complexes with inhibitors. To illustrate an approach to drug design, an example of structure-based design of a cathepsin B-specific inhibitor is described.
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PMID:Development of cathepsin inhibitors and structure-based design of cathepsin B-specific inhibitor. 2033 81

The overexpression of the cysteine protease calpain is associated with many diseases, including brain trauma, spinal cord injury, Alzheimer's disease, Parkinson's disease, muscular dystrophy, arthritis, and cataract. Calpastatin is the naturally occurring specific regulator of calpain activity. It has previously been reported that a 20-mer peptide truncated from region B of calpastatin inhibitory domain 1 (named CP1B) retains both the affinity and selectivity of calpastatin toward calpain, exhibiting a K(i) of 26 nM against mu-calpain, and is 1000-fold more selective for mu-calpain than cathepsin L. Both the wild-type and beta-Ala mutant CP1B peptides exhibit a propensity to adopt a looplike conformation between Glu10 and Lys13. A computational study of human wild-type CP1B and the beta-Ala mutants of this peptide was conducted. The resulting structural predictions were compared with the crystal structure of the calpain-calpastatin complex and were correlated with experimental IC(50) values. These findings suggest that the conformational preference of the loop region between Glu10 and Lys13 of CP1B in the absence of calpain may contribute to the inhibitory activity of this series of peptides against calpain.
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PMID:Molecular modeling studies of peptide inhibitors highlight the importance of conformational prearrangement for inhibition of calpain. 2049 28


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