Pemetrexed: biochemical and cellular pharmacology, mechanisms, and clinical applications

Chattopadhyay, Shrikanta; Moran, Richard G.; Goldman, I. David

doi:10.1158/1535-7163.mct-06-0343

Cited by 241 publications

(235 citation statements)

References 114 publications

Supporting

Mentioning

228

Contrasting

Unclassified

Order By: Relevance

“…More recently, the emphasis in folatemediated drug therapy has shifted to obtain a better understanding of transport mechanisms of antifolates because dose-limiting toxicities arise from their transport via RFC, and possibly PCFT, into normal cells (6,11,(15)(16)(17). To date, antifolates approved for clinical use are transported primarily via RFC, although one of the most recently developed antifolates, pemetrexed (PMX), may also transit through PCFT (6,11,(18)(19)(20)(21). Given the toxicities associated with transport via facilitative transporters, the development of therapeutic molecules specifically transported via the FRs has been explored over the last two decades (22)(23)(24).…”

mentioning

confidence: 99%

Structures of human folate receptors reveal biological trafficking states and diversity in folate and antifolate recognition

Wibowo

Singh

Reeder

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

168

190

View full text Add to dashboard Cite

Antifolates, folate analogs that inhibit vitamin B 9 (folic acid)-using cellular enzymes, have been used over several decades for the treatment of cancer and inflammatory diseases. Cellular uptake of the antifolates in clinical use occurs primarily via widely expressed facilitative membrane transporters. More recently, human folate receptors (FRs), high affinity receptors that transport folate via endocytosis, have been proposed as targets for the specific delivery of new classes of antifolates or folate conjugates to tumors or sites of inflammation. The development of specific, FR-targeted antifolates would be accelerated if additional biophysical data, particularly structural models of the receptors, were available. Here we describe six distinct crystallographic models that provide insight into biological trafficking of FRs and distinct binding modes of folate and antifolates to these receptors. From comparison of the structures, we delineate discrete structural conformations representative of key stages in the endocytic trafficking of FRs and propose models for pH-dependent conformational changes. Additionally, we describe the molecular details of human FR in complex with three clinically prevalent antifolates, pemetrexed (also Alimta), aminopterin, and methotrexate. On the whole, our data form the basis for rapid design and implementation of unique, FR-targeted, folate-based drugs for the treatment of cancer and inflammatory diseases.isothermal titration calorimetry | targeted drug delivery

show abstract

mentioning

confidence: 99%

Structures of human folate receptors reveal biological trafficking states and diversity in folate and antifolate recognition

Wibowo

Singh

Reeder

et al. 2013

Proc. Natl. Acad. Sci. U.S.A.

168

190

View full text Add to dashboard Cite

show abstract

“…12 Folates and antifolates are reabsorbed at kidney proximal tubules via folate receptors and transported into cells. [13][14][15] We hypothesize that the accumulation of the drug intracellularly and the subsequent inhibition of purine and protein synthesis, result in tubular cytotoxicity and possibly secondary tubulointerstitial inflammation leading to AKI. Our patient did not respond to corticosteroid treatment.…”

mentioning

confidence: 99%

Interstitial nephritis and nephrogenic diabetes insipidus in a patient treated with pemetrexed

et al. 2010

View full text Add to dashboard Cite

We present a case of interstitial nephritis and nephrogenic diabetes insipidus (NDI) in a patient treated with pemetrexed (500 mg/m 2 ) for non-small cell lung cancer. Renal impairment and diabetes insipidus appeared after the first treatment cycle while he totally received four cycles of chemotherapy. There was not any significant myelosuppression and the patient was on regular supplementation with folic acid and vitamin B 12 . He was not on any other medications and he did not receive any nephrotoxic agents. Kidney biopsy showed acute tubular necrosis together with interstitial inflammatory infiltrate of mononuclear cells and interstitial fibrosis occupying 25% of the cortex. There was not any improvement of renal function after a 2-week trial of oral prednisone. In the present case report, we review the literature for pemetrexed-induced renal toxicity and the possible mechanisms involved.

show abstract

“…This cumulates in increased sub-cellular vesiculization-mediated generation of pro-oxidant reactive oxygen species (109,110), and in case of the mitochondria, vesiculization-mediated loss of MM electromotive potential (109,(111)(112)(113). Therefore, the mechanism for anti-folate chemoxenobiotic-mediated cellular cytotoxicity is FAR endocytosis-driven sub-cellular pro-oxidant oxidative stress (114)(115)(116)(117), particularly mitochondrial, whereby there is only limited potential for CM receptor endocytosis-mediated (Pseudo) 3ary indirect pressuromodulation (110,118) (Table VIII and Fig. 8).…”

Section: Small Molecule Xenobiotics That Cause Dual Carboxylation-facmentioning

confidence: 99%

Conserved molecular mechanisms underlying the effects of small molecule xenobiotic chemotherapeutics on cells

Sarin¹

2015

Molecular and Clinical Oncology

View full text Add to dashboard Cite

Abstract. For proper determination of the apoptotic potential of chemoxenobiotics in synergism, it is important to understand the modes, levels and character of interactions of chemoxenobiotics with cells in the context of predicted conserved biophysical properties. Chemoxenobiotic structures are studied with respect to atom distribution over molecular space, the predicted overall octanol-to-water partition coefficient (Log OWPC; unitless) and molecular size viz a viz van der Waals diameter (vdWD). The Log OWPC-to-vdWD (nm -1 ) parameter is determined, and where applicable, hydrophilic interacting moiety/core-to-vdWD (nm -1 ) and lipophilic incorporating hydrophobic moiety/core-to-vdWD (nm -1 ) parameters of their part-structures are determined. The cellular and sub-cellular level interactions of the spectrum of xenobiotic chemotherapies have been characterized, for which a classification system has been developed based on predicted conserved biophysical properties with respect to the mode of chemotherapeutic effect. The findings of this study are applicable towards improving the effectiveness of existing combination chemotherapy regimens and the predictive accuracy of personalized cancer treatment algorithms as well as towards the selection of appropriate novel xenobiotics with the potential to be potent chemotherapeutics for dendrimer nanoparticle-based effective transvascular delivery. IntroductionSmall molecules non-endogenous to the biological system, often referred to as xenobiotics, include a diverse variety of molecules, simple organic toxicants with uncomplicated structures and natural eukaryotic antibiotics and synthetic molecules of more complicated structures and cytotoxic properties (1), the latter of which have chemotherapeutic properties. Although small molecule chemoxenobiotics, of various traditional classes, form the basis of present synergistic cancer treatment strategies, their clinical efficacy remains questionable for the treatment of solid and hematopoietic malignancies alike, upon surgical resection in the former, and during bone marrow irradiation-transplantation and after in the latter. For this reason, a better understanding of the modes and character underlying molecular cellular interactions is necessary, particularly for the purposes of improving the tumor tissue selectiveness of enhanced permeation and retention (EPR)-based chemotherapy (2), which has a prolonged blood half-life but is non-selective for solid tumor foci. Along these lines, there has been relatively recent translational advancement towards the development of optimally sized dendrimer nanoparticle-based small molecule chemotherapy at ~9 nm (H D ) (3-7), which selectively delivers small molecule chemoxenobiotics into solid malignancies at effective concentrations without systemic toxicity (4,8). As such, with optimally sized dendrimer nanoparticle-based small molecule chemotherapy, there is the potential for complete tumor regression (3,9) in lieu of the possibility for the development of drug resistance phenotypes (1...

show abstract

Pemetrexed: biochemical and cellular pharmacology, mechanisms, and clinical applications

Cited by 241 publications

References 114 publications

Structures of human folate receptors reveal biological trafficking states and diversity in folate and antifolate recognition

Structures of human folate receptors reveal biological trafficking states and diversity in folate and antifolate recognition

Interstitial nephritis and nephrogenic diabetes insipidus in a patient treated with pemetrexed

Conserved molecular mechanisms underlying the effects of small molecule xenobiotic chemotherapeutics on cells

Contact Info

Product

Resources

About