Defects in apoptosis are intimately associated with tumor development and are also responsible for tumor cell resistance to anti-neoplastic agents. Caspase activation lies in the core of apoptotic cell death. Cytochrome c (CC)-initiated Apaf-1 apoptosome formation represents a key initiating event in caspase-9 (an initiator caspase) activation, which ultimately activates effector caspases such as caspase-3 to execute cell demise. This cascade of caspase activation can be reconstituted in vitro with the addition of CC to cell lysates along with low levels of ATP or dATP (~10-200 ?M), leading to the general conclusion by many that nucleotides such as dATP or ATP [(d)ATP] are proapoptotic. Most mammalian cells, however, possess an endogenous nucleotide pool of 4-10 mM. How the physiological, mM levels of ATP and nucleotides in general affect apoptosome formation and caspase activation remains a critical unanswered question. Recently, we have provided strong evidence that the physiologically relevant levels of nucleotides powerfully inhibit the CC-induced, apoptosome-mediated caspase-9 activation by binding directly to CC and preventing CC from interacting with Apaf-1. Consequently, the CC-mediated apoptosome assembly and activation are blocked. Co-microinjection of nucleotides and CC renders cells resistant to the CC-induced apoptosis in vivo whereas experimentally reducing nucleotides enhances both CC and apoptotic stimuli-induced cell death. These observations lead us to hypothesize that physiological levels of nucleotides, in addition to their well-established roles in nucleic acid synthesis, intermediate metabolism, and maintenance of bioenergetics, also function as critical prosurvival factors by directly inhibiting the CC-mediated apoptosome formation and caspase activation. In this K01 grant application, I propose three Specific Aims to test this hypothesis: 1) To further study nucleotide interaction with CC in vitro;2) To elucidate nucleotide interaction with CC in vivo;and 3) To investigate nucleotide interaction with Apaf-1 and its impact on apoptosome activation.
These aims will be accomplished using a combination of cellular, biochemical, and molecular approaches. The accomplishment of the proposed goals will significantly advance our understanding, at the molecular level, of how nucleotides regulate apoptosome and caspase activation as well as cell death. The newly obtained knowledge should also have important implications in helping to design novel anti-cancer therapeutics targeting the apoptotic machinery.

Agency
National Institute of Health (NIH)
Institute
National Cancer Institute (NCI)
Type
Research Scientist Development Award - Research & Training (K01)
Project #
5K01CA123142-05
Application #
7795699
Study Section
Subcommittee G - Education (NCI)
Program Officer
Lohrey, Nancy
Project Start
2007-05-01
Project End
2012-04-30
Budget Start
2010-05-01
Budget End
2012-04-30
Support Year
5
Fiscal Year
2010
Total Cost
$157,680
Indirect Cost
Name
Roswell Park Cancer Institute Corp
Department
Type
DUNS #
824771034
City
Buffalo
State
NY
Country
United States
Zip Code
14263
Gogada, Raghu; Yadav, Neelu; Liu, Junwei et al. (2013) Bim, a proapoptotic protein, up-regulated via transcription factor E2F1-dependent mechanism, functions as a prosurvival molecule in cancer. J Biol Chem 288:368-81
Prabhu, Varun; Srivastava, Pragya; Yadav, Neelu et al. (2013) Resveratrol depletes mitochondrial DNA and inhibition of autophagy enhances resveratrol-induced caspase activation. Mitochondrion 13:493-9
Koochekpour, Shahriar; Marlowe, Timothy; Singh, Keshav K et al. (2013) Reduced mitochondrial DNA content associates with poor prognosis of prostate cancer in African American men. PLoS One 8:e74688
Yadav, Neelu; Chandra, Dhyan (2013) Mitochondrial DNA mutations and breast tumorigenesis. Biochim Biophys Acta 1836:336-44
Srivastava, Pragya; Yadav, Neelu; Lella, Ravi et al. (2012) Neem oil limonoids induces p53-independent apoptosis and autophagy. Carcinogenesis 33:2199-207
Gogada, Raghu; Prabhu, Varun; Amadori, Michael et al. (2011) Resveratrol induces p53-independent, X-linked inhibitor of apoptosis protein (XIAP)-mediated Bax protein oligomerization on mitochondria to initiate cytochrome c release and caspase activation. J Biol Chem 286:28749-60
Zhang, Honghao; Gogada, Raghu; Yadav, Neelu et al. (2011) Defective molecular timer in the absence of nucleotides leads to inefficient caspase activation. PLoS One 6:e16379
Gogada, Raghu; Amadori, Michael; Zhang, Honghao et al. (2011) Curcumin induces Apaf-1-dependent, p21-mediated caspase activation and apoptosis. Cell Cycle 10:4128-37
Chandra, Dhyan; Singh, Keshav K (2011) Genetic insights into OXPHOS defect and its role in cancer. Biochim Biophys Acta 1807:620-5
Chandra, Dhyan; Tang, Dean G (2009) Detection of apoptosis in cell-free systems. Methods Mol Biol 559:65-75

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