Cancer chemotherapy efficacy is frequently impaired by either intrinsic or acquired tumor resistance.A fundamental problem in cancer research is identifying the cell type that is capable of sustaining neoplastic growt...Cancer chemotherapy efficacy is frequently impaired by either intrinsic or acquired tumor resistance.A fundamental problem in cancer research is identifying the cell type that is capable of sustaining neoplastic growth and its origin from normal tissue cells.In recent years,the cancer stem cell(CSC) theory has changed the classical view of tumor growth and therefore the therapeutic perspective.Overcoming intrinsic and acquired resistance of cancer stem/progenitor cells to current clinical treatments represents a major challenge in treating and curing the most aggressive and metastatic cancers.On the other hand,the identification of CSCs in vivo and in vitro relies on specific surface markers that should allow the sorting cancer cells into phenotypically distinct subpopulations.In the present review,recent papers published on CSCs in solid tumors(breast,prostate,brain and melanoma) are discussed,highlighting critical points such as the choice of markers to sort CSCs and mouse models to demonstrate that CSCs are able to replicate the original tumor.A discussion of the possible role of aldehyde dehydrogenase and CXCR6 biomarkers as signaling molecules in CSCs and normal stem cells is also discussed.The author believes that efforts have to be made to investigate the functional and biological properties of putative CSCs in cancer.Developing diagnostic/prognostic tools to follow cancer development is also a challenge.In this connection it would be useful to develop a multidisciplinary approach combining mathematics,physics and biology which merges experimental approaches and theory.Biological models alone are probably unable to resolve the problem completely.展开更多
We found that sinus bradycardia in members of a large family was associated with a mutation in the gene coding for the pacemaker HCN4 ion channel. Pacemaker channels of the sinoatrial node generate spontaneous activit...We found that sinus bradycardia in members of a large family was associated with a mutation in the gene coding for the pacemaker HCN4 ion channel. Pacemaker channels of the sinoatrial node generate spontaneous activity and mediate cyclic AMP(cAMP)-dependent autonomic modulation of the heart rate. The mutation associated with bradycardia is located near the cAMP-binding site; functional analysis found that mutant channels respond normally to cAMP but are activated at more negative voltages than are wild-type channels. These changes, which mimic those of mild vagal stimulation, slow the heart rate by decreasing the inward diastolic current. Thus, diminished function of pacemaker channels is linked to familial bradycardia.展开更多
文摘Cancer chemotherapy efficacy is frequently impaired by either intrinsic or acquired tumor resistance.A fundamental problem in cancer research is identifying the cell type that is capable of sustaining neoplastic growth and its origin from normal tissue cells.In recent years,the cancer stem cell(CSC) theory has changed the classical view of tumor growth and therefore the therapeutic perspective.Overcoming intrinsic and acquired resistance of cancer stem/progenitor cells to current clinical treatments represents a major challenge in treating and curing the most aggressive and metastatic cancers.On the other hand,the identification of CSCs in vivo and in vitro relies on specific surface markers that should allow the sorting cancer cells into phenotypically distinct subpopulations.In the present review,recent papers published on CSCs in solid tumors(breast,prostate,brain and melanoma) are discussed,highlighting critical points such as the choice of markers to sort CSCs and mouse models to demonstrate that CSCs are able to replicate the original tumor.A discussion of the possible role of aldehyde dehydrogenase and CXCR6 biomarkers as signaling molecules in CSCs and normal stem cells is also discussed.The author believes that efforts have to be made to investigate the functional and biological properties of putative CSCs in cancer.Developing diagnostic/prognostic tools to follow cancer development is also a challenge.In this connection it would be useful to develop a multidisciplinary approach combining mathematics,physics and biology which merges experimental approaches and theory.Biological models alone are probably unable to resolve the problem completely.
文摘We found that sinus bradycardia in members of a large family was associated with a mutation in the gene coding for the pacemaker HCN4 ion channel. Pacemaker channels of the sinoatrial node generate spontaneous activity and mediate cyclic AMP(cAMP)-dependent autonomic modulation of the heart rate. The mutation associated with bradycardia is located near the cAMP-binding site; functional analysis found that mutant channels respond normally to cAMP but are activated at more negative voltages than are wild-type channels. These changes, which mimic those of mild vagal stimulation, slow the heart rate by decreasing the inward diastolic current. Thus, diminished function of pacemaker channels is linked to familial bradycardia.
