Accurate chromosome segregation is vital for cell viability. Many cancer cells show chromosome instability (CIN) due to aberrant expression of the genes involved in chromosome segregation. The induction of massive chromosome segregation errors in such cancer cells by small molecule inhibitors is an emerging strategy to kill these cells selectively. Here we screened and characterized small molecule inhibitors which cause mitotic chromosome segregation errors to target cancer cell growth. We screened about 300 chemicals with known targets, and found that Rho-associated coiled-coil kinase (ROCK) inhibitors bypassed the spindle assembly checkpoint (SAC), which delays anaphase onset until proper kinetochore-microtubule interactions are established. We investigated how ROCK inhibitors affect chromosome segregation, and found that they induced microtubule-dependent centrosome fragmentation. Knockdown of ROCK1 and ROCK2 revealed their additive roles in centrosome integrity. Pharmacological inhibition of LIMK also induced centrosome fragmentation similar to that by ROCK inhibitors. Inhibition of ROCK or LIMK hyper-stabilized mitotic spindles and impaired Aurora-A activation. These results suggested that ROCK and LIMK are directly or indirectly involved in microtubule dynamics and activation of Aurora-A. Furthermore, inhibition of ROCK or LIMK suppressed T cell leukemia growth in vitro, but not peripheral blood mononuclear cells. They induced centrosome fragmentation and apoptosis in T cell leukemia cells. These results suggested that ROCK and LIMK can be a potential target for anti-cancer drugs.
What is known and Objective: Cancer drug treatment is often discontinued because of skin disorder aggravation. However, information on risk factors for skin disorders caused by anti-epidermal growth factor receptor (EGFR) antibody drugs is limited.The aim of this study was to analyse the factors associated with skin disorders caused by anti-EGFR antibody drugs and establish a method to minimize such aggravations.
Methods:We retrospectively examined 67 colorectal cancer patients treated with anti-EGFR antibody drugs for the first time.Results and discussion: A higher proportion of males than females experienced drug withdrawal, dose reduction or treatment discontinuation. The multiple logistic regression analysis revealed body weight as a risk factor affecting drug withdrawal, dose reduction or treatment discontinuation because of an acneiform rash. An examination of methods to avoid the aggravation of skin disorders revealed the acneiform rash grade in patients who received prophylactic minocycline was significantly lower than that in patients who did not receive prophylactic minocycline. Furthermore, among patients with grade 1 acneiform rash at the initiation of minocycline, the proportion of those who withdrew, required dose reduction or discontinued treatment was lower than that among patients with grade 2 acneiform rash.
What is new and Conclusion:High body weight was identified as a novel factor for skin disorder aggravation caused by anti-EGFR antibody drugs. The aggravation of skin disorders during cancer treatment with anti-EGFR antibody drugs can potentially be avoided by carefully observing the onset of acneiform rash in affected patients with high body weight and using minocycline prophylactically or as an early-stage intervention.
Background
We previously reported that high body weight was a risk factor affecting the onset of anti-epidermal growth factor receptor (EGFR) antibody drug-induced acneiform rash. The current study investigated the relationship between risk factors for anti-EGFR antibody drug-induced acneiform rash and survival probability in colorectal cancer patients, as well as effects of drug withdrawal, dose reduction, or treatment discontinuation on treatment continuation.
Methods
This retrospective study included 67 patients with unresectable advanced or recurrent colorectal cancer treated with anti-EGFR antibody drugs for the first time.
Results
The survival time and acneiform rash grade of patients with high body weight (≥ 67.2 kg) were significantly longer and higher than those of patients with low body weight (< 67.2 kg). Moreover, the treatment continuation time of patients with drug withdrawal or dose reduction was significantly longer than that of patients without drug withdrawal or dose reduction or with/without treatment discontinuation. Meanwhile, the treatment continuation time of patients with treatment discontinuation was significantly shorter than that of patients with drug withdrawal or dose reduction or those without drug withdrawal, dose reduction, or treatment discontinuation.
Conclusions
High body weight is a novel prognostic factor for patients receiving cancer drugs with anti-EGFR antibody drugs. Hence, the results of this study suggest that patients with high body weight should be carefully monitored for the development of acneiform rash when receiving anti-EGFR antibody drugs as cancer drug therapy.
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