Ravi Nadimpalli scite author profile

A series of 2-amino-4H-3,1-benzoxazin-4-ones have been synthesized and evaluated as inhibitors of the complement enzyme C1r. C1r is a serine protease at the beginning of the complement cascade, and complement activation by beta-amyloid may represent a major contributing pathway to the neuropathology of Alzheimer's disease. Compounds such as 7-chloro-2-[(2-iodophenyl)-amino]benz[d][1,3]oxazin-4-one (32) and 7-methyl-2-[(2-iodophenyl)amino]benz[d][1,3]oxazin-4-one (37) show improved potency compared to the reference compound FUT-175. Many of these active compounds also possess increased selectivity for C1r compared to trypsin and enhanced hydrolytic stability relative to 2-(2-iodophenyl)-4H-3,1-benzoxazin-4-one (1).

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Characterization of CPP32‐Like Protease Activity Following Apoptotic Challenge in SH‐SY5Y Neuroblastoma Cells

Posmantur¹,

McGinnis²,

Nadimpalli³

et al. 1997

Journal of Neurochemistry

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We characterized the activation of interleukin‐1β‐converting enzyme (ICE)‐like proteases (caspases) in human neuroblastoma cells (SH‐SY5Y) following challenge with staurosporine, an established agent known to induce apoptosis. Time course analyses of lactate dehydrogenase release detected a significant increase in cell death as early as 6 h that continued at least until 24 h following staurosporine treatment. Western blot analyses using anti‐poly(ADP‐ribose) polymerase (anti‐PARP) and anti‐CPP32 antibodies revealed proteolytic processing of CPP32 (an ICE homologue) as well as fragmentation of PARP as early as 3 h following staurosporine challenge. Furthermore, the hydrolysis of the CPP32 substrate acetyl‐DEVD‐7‐amido‐4‐methylcoumarin was detected as early as 3 h and became maximal at 6 h after staurosporine challenge, suggesting a delayed and sustained period of CPP32‐like activation. In addition, we used the first immunohistochemical examination of CPP32 and PARP in cells following an apoptotic challenge. The localization of CPP32 in untreated SH‐SY5Y cells was exclusively restricted to the cytoplasm. Following staurosporine challenge there was a condensing of CPP32 immunofluorescence from the cytoplasm to a region adjacent to the plasma membrane. In contrast, PARP immunofluorescence was evenly distributed in the nucleus in untreated SH‐SY5Y cells and on staurosporine challenge was found to be associated with condensed chromatin. It is important that a pan ICE inhibitor [carbobenzoxy‐Asp‐CH2OC(O)‐2,6‐dichlorobenzene] was able to attenuate lactate dehydrogenase release and PARP and CPP32 cleavage and altered immunohistochemical staining patterns for PARP and CPP32 following staurosporine challenge.

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Neuronal Nitric Oxide Synthase and Calmodulin‐Dependent Protein Kinase IIα Undergo Neurotoxin‐Induced Proteolysis

Hajimohammadreza

Raser²,

Nath³

et al. 1997

Journal of Neurochemistry

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Calpain (calcium‐activated neutral protease) has been implicated as playing a role of neuronal injury in cerebral ischemia and excitotoxicity. Here we report that, in addition to extreme excitotoxic conditions [N‐methyl‐d‐aspartate (NMDA), α‐amino‐3‐hydroxy‐5‐methyl‐4‐isoxazolepropionic acid (AMPA), and kainate challenges], other neurotoxins such as maitotoxin, A23187, and okadaic acid also induce calpain activation, as detected by m‐calpain autolytic fragmentation and nonerythroid α‐spectrin breakdown. Under the same conditions, calmodulin‐dependent protein kinase II‐α (CaMPK‐IIα) and neuronal nitric oxide synthase (nNOS) are both proteolytically cleaved by calpain. Such fragmentation can be reduced by calpain inhibitors (acetyl‐Leu‐Leu‐Nle‐CHO and PD151746). In vitro digestion of protein extract from cortical cultures with purified μ‐ and m‐calpain produced fragmentation patterns for CaMPK‐IIα and nNOS similar to those produced in situ. Also, several other calpain‐sensitive calmodulin‐binding proteins (plasma membrane calcium pump, microtubule‐associated protein 2, and calcineurin A) and protein kinase C‐α are also degraded in neurotoxin‐treated cultures. Lastly, in a rat pup model of acute excitotoxicity, intrastriatal injection of NMDA resulted in breakdown of CaMPK‐IIα and nNOS. The degradation of CaMPK‐IIα, nNOS, and other endogenous calpain substrates may contribute to the neuronal injury associated with various neurotoxins.

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Ravi Nadimpalli

Caspase-Mediated Fragmentation of Calpain Inhibitor Protein Calpastatin during Apoptosis

Effects of ICE-like protease and calpain inhibitors on neuronal apoptosis

2-Amino-4H-3,1-benzoxazin-4-ones as Inhibitors of C1r Serine Protease

Characterization of CPP32‐Like Protease Activity Following Apoptotic Challenge in SH‐SY5Y Neuroblastoma Cells

Neuronal Nitric Oxide Synthase and Calmodulin‐Dependent Protein Kinase IIα Undergo Neurotoxin‐Induced Proteolysis

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