Manish G. Kumar scite author profile

The ultraviolet B (UVB) component of sunlight causes non‐melanoma skin cancers due to the damage it inflicts on genomic DNA. The response of epidermal keratinocytes to sunlight depends on the dose of UVB received and the severity of the damage to the DNA. Mild DNA damage typically induces DNA‐repair pathways and cell survival, while severe DNA damage provokes apoptosis. Primary human keratinocytes grown in serum‐free media respond in a similar manner to UVB irradiation. However, we observed that keratinocytes are exquisitely more susceptible to UVB‐induced apoptosis if the growth medium is depleted of exogenous growth factors. Therefore, an exogenous growth factor could provide protection from UVB‐induced apoptosis. We found that the only growth factor that provided protection from UVB‐induced apoptosis was insulin and that the protective effect elicited by insulin was not due to binding the insulin receptor but, rather, to activation of the insulin‐like growth factor‐1 (IGF‐1) receptor. Additionally, activation of the IGF‐1 receptor in combination with UVB irradiation induced keratinocytes to become post‐mitotic. This survival function of the IGF‐1 receptor in response to UVB irradiation was influenced by activation of phosphatidylinositol‐3 kinase and MAP kinase. Prior to UVB irradiation, insulin or IGF‐1 had little to no effect on cell growth or viability. Therefore, activation of the IGF‐1 receptor in conjunction with UVB irradiation promotes keratinocyte survival at the expense of cell proliferation. Int. J. Cancer 80:431–438, 1999. © 1999 Wiley‐Liss, Inc.

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Senescence-Associated Secretory Phenotype and Its Possible Role in Chronic Obstructive Pulmonary Disease

Kumar

Seeger²,

Voswinckel³

2014

Am J Respir Cell Mol Biol

108

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Chronic obstructive pulmonary disease (COPD) is a major disease of the lungs. It primarily occurs after a prolonged period of cigarette smoking. Chronic inflammation of airways and the alveolar space as well as lung tissue destruction are the hallmarks of COPD. Recently it has been shown that cellular senescence might play a role in the pathogenesis of COPD. Cellular senescence comprises signal transduction program, leading to irreversible cell cycle arrest. The growth arrest in senescence can be triggered by many different mechanisms, including DNA damage and its recognition by cellular sensors, leading to the activation of cell cycle checkpoint responses and activation of DNA repair machinery. Senescence can be induced by several genotoxic factors apart from telomere attrition. When senescence induction is based on DNA damage, senescent cells display a unique phenotype, which has been termed "senescence-associated secretory phenotype" (SASP). SASP may be an important driver of chronic inflammation and therefore may be part of a vicious cycle of inflammation, DNA damage, and senescence. This research perspective aims to showcase cellular senescence with relevance to COPD and the striking similarities between the mediators and secretory phenotype in COPD and SASP.

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Subphysiological concentrations of extracellular calcium sensitize normal human keratinocytes to UVB-induced apoptosis

Kumar

Hurwitz

Cotton

et al. 1999

Archives of Dermatological Research

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Normal human keratinocytes are stimulated to proliferate in serum-free medium containing subphysiological concentrations of calcium (0.09 mM, low calcium). In this study, we examined the effect of increased levels of extracellular calcium (2.0 mM, normal calcium) on UVB-induced apoptosis. Apoptosis was assessed by changes in cellular morphology, annexind V-FITC flow cytometry, and the formation of internucleosomal DNA ladders. High doses of UVB induced keratinocytes grown in low calcium medium to undergo apoptosis. In contrast, keratinocytes grown for 72 h in normal calcium medium were completely resistant to UVB-induced apoptosis. No apoptosis was observed even at UVB doses as high as 1200 J/m2. However, despite the lack of UVB-induced cell death, keratinocytes grown in normal calcium medium lost the ability to proliferate following high levels of UVB irradiation. High doses of UVB also increased the expression of the differentiation-specific proteins involucrin and cytokeratin 10 in a dose-dependent manner. In addition, growth in normal calcium medium lowered the UVB-induced stimulation of the p53 protein and altered the normal subcellular localization pattern of p53. UVB irradiation of human keratinocytes grown in normal calcium medium may be inducing further cell differentiation in the absence of overt cell death.

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Activation of the insulin‐like growth factor‐1 receptor promotes the survival of human keratinocytes following ultraviolet B irradiation

Kuhn¹,

Hurwitz²,

Kumar³

et al. 1999

Int. J. Cancer

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The ultraviolet B (UVB) component of sunlight causes non-melanoma skin cancers due to the damage it inflicts on genomic DNA. The response of epidermal keratinocytes to sunlight depends on the dose of UVB received and the severity of the damage to the DNA. Mild DNA damage typically induces DNA-repair pathways and cell survival, while severe DNA damage provokes apoptosis. Primary human keratinocytes grown in serum-free media respond in a similar manner to UVB irradiation. However, we observed that keratinocytes are exquisitely more susceptible to UVBinduced apoptosis if the growth medium is depleted of exogenous growth factors. Therefore, an exogenous growth factor could provide protection from UVB-induced apoptosis. We found that the only growth factor that provided protection from UVB-induced apoptosis was insulin and that the protective effect elicited by insulin was not due to binding the insulin receptor but, rather, to activation of the insulin-like growth factor-1 (IGF-1) receptor. Additionally, activation of the IGF-1 receptor in combination with UVB irradiation induced keratinocytes to become post-mitotic. This survival function of the IGF-1 receptor in response to UVB irradiation was influenced by activation of phosphatidylinositol-3 kinase and MAP kinase. Prior to UVB irradiation, insulin or IGF-1 had little to no effect on cell growth or viability. Therefore, activation of the IGF-1 receptor in conjunction with UVB irradiation promotes keratinocyte survival at the expense of cell proliferation. Int.

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Manish G. Kumar

Activation of the insulin-like growth factor-1 receptor promotes the survival of human keratinocytes following ultraviolet B irradiation

Senescence-Associated Secretory Phenotype and Its Possible Role in Chronic Obstructive Pulmonary Disease

Subphysiological concentrations of extracellular calcium sensitize normal human keratinocytes to UVB-induced apoptosis

Activation of the insulin‐like growth factor‐1 receptor promotes the survival of human keratinocytes following ultraviolet B irradiation

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