Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: UMLS:C0178874 (
tumor progression
)
40,807
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Ad libitum (AL) overfeeding is the most significant uncontrolled variable effecting the rodent bioassay. There is a highly significant correlation between food consumption, the resultant body weight, and two-year survival in laboratory rats. We have studied the effects of AL overfeeding, moderate dietary restriction (DR) and several modified diets on Sprague-Dawley (SD) rat longevity, spontaneous disease, carcinogenesis and the toxicity of pharmaceuticals. AL feeding of diets varying in protein, fiber and metabolizable energy content did not significantly alter two-year rat survival. Moderate DR (within the range of reported AL food intake) of all diets tested significantly improved survival and delayed the onset of spontaneous
degenerative disease
and diet-related tumors compared to AL-fed rats. Moderate DR resulted in a similar incidence of spontaneous tumors by 2 years, however, the tumors were more likely to be incidental and not result in early mortality. There was a decreased, age-adjusted incidence of pituitary and mammary gland tumors, but tumor volume and growth time was similar between AL and DR groups indicating similar
tumor progression
with a delay in tumor onset. Moderate DR did not change Phase I and Phase II drug metabolizing enzyme levels and did not significantly alter the toxicological response to 5 pharmaceuticals tested at maximum tolerated doses (MTDs). Additional studies with 4 pharmaceutical candidates did demonstrate that moderate DR allowed higher doses of compounds to be given before classical MTDs were observed. However, toxicokinetic studies of two of these compounds demonstrated steady state systemic exposures that were either equal of higher in the moderate DR fed rats. These and other data indicate that the moderate DR fed SD rat is a more appropriately controlled rodent model for toxicity and carcinogenicity studies to assess human safety of candidate pharmaceuticals.
...
PMID:The effects of overfeeding and moderate dietary restriction on Sprague-Dawley rat survival, pathology, carcinogenicity, and the toxicity of pharmaceutical agents. 867 67
Overfeeding by ad libitum (AL) food consumption is the most significant, uncontrolled variable affecting the outcome of the current rodent bioassay. The correlation of food consumption, the resultant adult body weight and the 2-y survival in Sprague-Dawley rats is highly significant. Feeding natural ingredient diets that varied in protein, fiber and metabolizable energy content did not improve low 2-y survival if Sprague-Dawley rats were allowed AL food consumption. Moderate dietary restriction (DR) of all diets tested significantly improved survival and delayed the onset of spontaneous
degenerative disease
(i.e., nephropathy and cardiomyopathy) and diet-related tumors. By 2 y, moderate DR resulted in an incidence of spontaneous tumors similar to that seen with AL consumption; however, the tumors were more likely to be incidental and did not result in early mortality. There was a decreased age-adjusted incidence in pituitary and mammary gland tumors, but tumor volume and growth time were similar in the AL and DR groups, indicating a similar
tumor progression
with a delay in tumor onset. Moderate DR did not significantly alter drug-metabolizing enzyme activities or the toxicologic response to five pharmaceuticals tested at maximum tolerated doses (MTD). However, moderate DR did require higher doses of compounds to be given before classical MTD were produced with four pharmaceutical drug candidates. Toxicokinetic studies of two of these compounds demonstrated steady-state systemic exposures that were equal or higher in moderate DR-fed rats. These and other data indicate that moderate DR is the most appropriate method of dietary control for rodent bioassays used to assess human safety of candidate pharmaceuticals.
...
PMID:The effects of diet, overfeeding and moderate dietary restriction on Sprague-Dawley rat survival, disease and toxicology. 916 52
Amyotrophic lateral sclerosis (ALS) is a
degenerative disease
involving both upper and lower motor neurons and the pathogenesis of this disorder is still unknown. To date, few reports have suggested that motor neuron diseases may have a paraneoplastic origin. However, it is still under discussion whether ALS occurring in cancer patients is paraneoplastic. A 60-year-old man with rectal cancer (Stage IV) having multiple lung, liver and para-aortic lymph node metastases underwent anterior resection of the rectum as palliative surgery. He was referred to our hospital for adjuvant chemotherapy. Lung and lymph node metastases decreased after 2 courses of chemotherapy using CPT-11 and 5-FU/LV but liver metastases were enlarged, following up increase in CEA. Thereafter, he suffered from muscle weakness in hands, arms, and legs and results of neurophysiologic studies were compatible with primary lateral sclerosis (ALS). For second line chemotherapy, he was treated with low-dose CDDP/5-FU over 6 courses. As a result, the size the of metastatic lesions markedly reduced and CEA was decreased to the normal level. Although significant tumor reduction was observed, his neurological symptoms rapidly progressed. He died of aspiration pneumonia 8 months after onset of the disease. Autopsy revealed that his neuropathological findings were compatible with ALS, and it was thought to be the primary cause of death in the because of absence of
cancer progression
. In this case the neurological syndrome was not affected by cancer therapy. Thus our case does not support the hypothesis that ALS in associated with cancer and the relationship between both disorders remains uncertain.
...
PMID:Report of an autopsy case of colon cancer with amyotrophic lateral sclerosis. 1782 8
Defective expression of frataxin is responsible for the
degenerative disease
Friedreich's ataxia. Frataxin is a protein required for cell survival since complete knockout is lethal. Frataxin protects tumor cells against oxidative stress and apoptosis but also acts as a tumor suppressor. The molecular bases of this apparent paradox are missing. We therefore sought to investigate the pathways through which frataxin enhances stress resistance in tumor cells. We found that frataxin expression is upregulated in several tumor cell lines in response to hypoxic stress, a condition often associated with
tumor progression
. Moreover, frataxin upregulation in response to hypoxia is dependent on hypoxia-inducible factors expression and modulates the activation of the tumor-suppressor p53. Importantly, we show for the first time that frataxin is in fact increased in human tumors in vivo. These results show that frataxin participates to the hypoxia-induced stress response in tumors, thus implying that modulation of its expression could have a critical role in tumor cell survival and/or progression.
...
PMID:Frataxin participates to the hypoxia-induced response in tumors. 2136 94
The alteration of tumorigenic pathways leading to cancer is a
degenerative disease
process typically involving inactivation of tumor suppressor proteins and hyperactivation of oncogenes. One such oncogenic protein product is the murine double-minute 2, or Mdm2. While, Mdm2 has been primarily associated as the negative regulator of the p53 tumor suppressor protein there are many p53-independent roles demonstrated for this oncogene. DNA damage and chemotherapeutic agents are known to activate Mdm2 and DNA repair pathways. There are five primary DNA repair pathways involved in the maintenance of genomic integrity: Nucleotide excision repair (NER), Base excision repair (BER), Mismatch repair (MMR), Non-homologous end joining (NHEJ) and homologous recombination (HR). In this review, we will briefly describe these pathways and also delineate the functional interaction of Mdm2 with multiple DNA repair proteins. We will illustrate the importance of these interactions with Mdm2 and discuss how this is important for
tumor progression
, cellular proliferation in cancer.
...
PMID:Integration of DNA damage and repair with murine double-minute 2 (Mdm2) in tumorigenesis. 2320 75
