Carrier-bound Methotrexate. III.‡ Antiproliferative Activity of Macromolecular MTX Conjugates Against the Human HeLa and Colo Carcinoma Cell Lines

In continuation of studies in these laboratories aiming at the bioevaluation of macromolecular anticancer drug models, in vitro cytotoxicity screens are performed on several series of water-soluble polymer-methotrexate  conjugates. The methotrexate drug in these conjugates is bound through amide or ester linkages to water- soluble polyamide- or polyamidoamine-type carriers by previously developed anchoring techniques.Tests were  conducted against the HeLahumancervical carcinoma cell line generally considered to be drug-sensitive, and  against two variants of the rather refractory Colo 320 DM, a human colon adenocarcinoma line.KEYWORDS: Drug conjugation, Colo cell line, HeLa cell line, methotrexate, polyaspartamide,  polyamidoamine

Genetic subtypes of smoldering multiple myeloma are associated with distinct pathogenic phenotypes and clinical outcomes

Smoldering multiple myeloma (SMM) is a precursor condition of multiple myeloma (MM) with significant heterogeneity in disease progression. Existing clinical models of progression risk do not fully capture this heterogeneity. Here we integrate 42 genetic alterations from 214 SMM patients using unsupervised binary matrix factorization (BMF) clustering and identify six distinct genetic subtypes. These subtypes are differentially associated with established MM-related RNA signatures, oncogenic and immune transcriptional profiles, and evolving clinical biomarkers. Three genetic subtypes are associated with increased risk of progression to active MM in both the primary and validation cohorts, indicating they can be used to better predict high and low-risk patients within the currently used clinical risk stratification models

Genomic Profiling of Smoldering Multiple Myeloma Identifies Patients at a High Risk of Disease Progression

PURPOSE: Smoldering multiple myeloma (SMM) is a precursor condition of multiple myeloma (MM) with a 10% annual risk of progression. Various prognostic models exist for risk stratification; however, those are based on solely clinical metrics. The discovery of genomic alterations that underlie disease progression to MM could improve current risk models. METHODS: We used next-generation sequencing to study 214 patients with SMM. We performed whole-exome sequencing on 166 tumors, including 5 with serial samples, and deep targeted sequencing on 48 tumors. RESULTS: We observed that most of the genetic alterations necessary for progression have already been acquired by the diagnosis of SMM. Particularly, we found that alterations of the mitogen-activated protein kinase pathway (KRAS and NRAS single nucleotide variants [SNVs]), the DNA repair pathway (deletion 17p, TP53, and ATM SNVs), and MYC (translocations or copy number variations) were all independent risk factors of progression after accounting for clinical risk staging. We validated these findings in an external SMM cohort by showing that patients who have any of these three features have a higher risk of progressing to MM. Moreover, APOBEC associated mutations were enriched in patients who progressed and were associated with a shorter time to progression in our cohort. CONCLUSION: SMM is a genetically mature entity whereby most driver genetic alterations have already occurred, which suggests the existence of a right-skewed model of genetic evolution from monoclonal gammopathy of undetermined significance to MM. We identified and externally validated genomic predictors of progression that could distinguish patients at high risk of progression to MM and, thus, improve on the precision of current clinical models

Macromolecular antiproliferative agents featuring dicarboxylato-chelated platinum

Cancerous diseases, together with cardiac afflictions, account for the predominant causes of death among the adult population of the Western world. The classical platinum drugs, with cisplatin as their parent, have established themselves for years as leading components in the oncologist’s arsenal of antitumor agents. As with most other antineoplastic drugs, however, incisive pharmacological deficiencies, notably excessive systemic toxicity and induction of drug resistance, have severely curtailed their overall efficaciousness. With the objective of overcoming these counterproductive deficiencies, the technique of polymer-drug conjugation, representing an advanced modality of drug delivery, has been developed in recent years to high standards worldwide. In a drug conjugate, water-soluble macromolecular carrier constructs designed in compliance with stringent pharmacological specifications are covalently, yet bioreversibly, interconnected with the bioactive agent. As a macromolecule following a pharmacokinetic pathway different from that of non-polymeric compounds, the conjugate acts as a pro-drug favorably transporting the agent through the various body compartments to, and into, the target cell, where the agent is enzymatically or hydrolytically separated from the carrier for its biological action. In the authors’ laboratories the conjugation strategy has been adopted as the primary tool for drug efficacy enhancement. The present paper describes a special type of platinum complex carrier-bound via dicarboxymetal chelation, synthesized from carboxyl-functionalized polyamide-type carriers by platination with trans-1,2-diaminocyclohexanediaquaplatinum(II) dinitrate. In a series of in vitro tests antiproliferative activities have been determined against several human cancer cell lines. Whereas no improvements are observed in tests against a colorectal cancer, outstanding findings of the screening program include a 10- to 100-fold increase in cell-killing performance of the conjugates relative to the (non-polymeric) cisplatin standard against the HeLa adenocarcinoma, and distinctly reduced resistance factors (again, relative to cisplatin) in tests against the A2780 and A2780-cis pair of ovarian cell lines. These findings augur well for future developments of this class of platinum drugs

Macromolecular Antiproliferative Agents Featuring Dicarboxylato-Chelated Platinum

Cancerous diseases, together with cardiac afflictions, account for the predominant causes of death among the adult population of the Western world. The classical platinum drugs, with cisplatin as their parent, have established themselves for years as leading components in the oncologist’s arsenal of antitumor agents. As with most other antineoplastic drugs, however, incisive pharmacological deficiencies, notably excessive systemic toxicity and induction of drug resistance, have severely curtailed their overall efficaciousness. With the objective of overcoming these counterproductive deficiencies, the technique of polymer-drug conjugation, representing an advanced modality of drug delivery, has been developed in recent years to high standards worldwide. In a drug conjugate, water-soluble macromolecular carrier constructs designed in compliance with stringent pharmacological specifications are covalently, yet bioreversibly, interconnected with the bioactive agent. As a macromolecule following a pharmacokinetic pathway different from that of non-polymeric compounds, the conjugate acts as a pro-drug favorably transporting the agent through the various body compartments to, and into, the target cell, where the agent is enzymatically or hydrolytically separated from the carrier for its biological action. In the authors’ laboratories the conjugation strategy has been adopted as the primary tool for drug efficacy enhancement. The present paper describes a special type of platinum complex carrier-bound via dicarboxymetal chelation, synthesized from carboxyl-functionalized polyamide-type carriers by platination with trans-1,2-diaminocyclohexanediaquaplatinum(II) dinitrate. In a series of in vitro tests antiproliferative activities have been determined against several human cancer cell lines. Whereas no improvements are observed in tests against a colorectal cancer, outstanding findings of the screening program include a 10- to 100-fold increase in cell-killing performance of the conjugates relative to the (non-polymeric) cisplatin standard against the HeLa adenocarcinoma, and distinctly reduced resistance factors (again, relative to cisplatin) in tests against the A2780 and A2780-cis pair of ovarian cell lines. These findings augur well for future developments of this class of platinum drugs