Germline p53 mutation in a patient with multiple primary cancers

The Role of TP53 in Adaptation and Evolution

The TP53 gene is a major player in cancer formation, and it is considered the most important tumor suppressor gene. The p53 protein acts as a transcription factor, and it is involved in DNA repair, senescence, cell-cycle control, autophagy, and apoptosis. Beyond cancer, there is evidence that TP53 is associated with fertility, aging, and longevity. Additionally, more evidence exists that genetic variants in TP53 are associated with environmental adaptation. Special TP53 amino-acid residues or pathogenic TP53 mutations seem to be adaptive for animals living in hypoxic and cold environments or having been exposed to starvation, respectively. At the somatic level, it has recently been proven that multiple cancer genes, including TP53, are under positive selection in healthy human tissues. It is not clear why these driver mutations do not transform these tissues into cancerous ones. Other studies have shown that elephants have multiple TP53 copies, probably this being the reason for the very low cancer incidence in these large animals. This may explain the famous Peto's paradox. This review discusses in detail the multilevel role of TP53 in adaptation, according to the published evidence. This role is complicated, and it extends from cells to individuals and to populations.

Characteristics of Li-Fraumeni Syndrome in Japan; A Review Study by the Special Committee of JSHT

Li-Fraumeni syndrome (LFS) is a hereditary cancer predisposition syndrome, and the majority of patients with LFS have been identified with germline variants in the p53 tumor suppressor (TP53) gene. In the past three decades, considerable case reports of TP53 germline variants have been published in Japan. To the best of our knowledge, there have been no large-scale studies of Japanese patients with LFS. In this study, we aimed to identify Japanese patients with TP53 germline variants and to reveal the characteristics of LFS in Japan. We collected reported cases by reviewing the medical literature and cases diagnosed at the institutions of the authors. We identified 68 individuals from 48 families with TP53 germline pathogenic or likely pathogenic variants. Of the 48 families, 35 (72.9%) had missense variants, most of which were located within the DNA-binding loop. A total of 128 tumors were identified in the 68 affected individuals. The 128 tumor sites were as follows: breast, 25; bones, 16; brain, 12; hematological, 11; soft tissues, 10; stomach, 10; lung, 10; colorectum, 10; adrenal gland, 9; liver, 4; and others, 11. Unique phenotype patterns of LFS were shown in Japan in comparison to those in a large national LFS cohort study in France. Above all, a higher frequency of patients with stomach cancer was observed in Japanese TP53 germline variant carriers. These results may provide useful information for the clinical management of LFS in Japan.

A Series of Biliary Tract Cancer With Coexistent Non-biliary Second Malignancy From Sub-Himalayan Region of India

Background When researching female patients with breast or ovarian neoplasms, our research will sensitize oncologists to the prevalence of biliary tract cancers such that early cancers are not overlooked. Depending on different inherited, environmental, and iatrogenic risk factors, patients diagnosed with cancer have a risk of harboring another de novo malignancy. The additional primary identification of late has increased mainly due to progress in both diagnosis and treatment modalities, improvement in life expectancy, and understanding. Methods This is a descriptive study of retrospectively collected data from health records over 15 months, of patients who had biliary tract cancer and incidentally detected coexisting second non-biliary malignancy, from July 2018 to September 2019 at a tertiary care hospital. Details such as age, sex, smoking history, family history, occupation, body mass index (BMI), the organ involved, levels of tumor markers, treatment, and outcome were recorded. Results Six consecutive patients with biliary tract cancer presented during this duration and incidentally detected the second primary was ovarian cancer in three (50%) patients, breast carcinoma in two (33%) patients, and urinary bladder carcinoma in the remaining one patient (17%). The median age at diagnosis was 52.5 years with a range of 40-65 years. All patients were females (100%), non-smokers, homemaker, and without any history of cancer in family members. Only two patients who had a resectable disease were alive at one year's follow-up. Conclusion The mechanisms of carcinogenesis in multiple primary malignancies are mainly genetic, epigenetics, and immunological. Prognosis, as well as the intent of treatment, depends on the respective stages of the two malignancies. In our study, most of the patients were in an advanced stage that demanded palliative care.

Triple primary malignancies of surface osteosarcoma of jaw, myelodysplastic syndrome and colorectal cancer as a second primary cancer detected by PET2-[18F]-fluoro-2-deoxy-D-glucose positron emission tomography: A case report

Second primary malignancy (SPM) is a severe issue for cancer survivors, particularly for osteosarcoma (OS) survivors. To date, the associations between subsequent SPM and OS have been well reported. Hematogenic and solid malignancies tend to occur following OS treatment. Reportedly, 2-[¹⁸F]-fluoro-2-deoxy-D-glucose positron emission tomography (FDG-PET) is mainly used in OS patients for initial cancer staging, to evaluate the response of neoadjuvant chemotherapy, and when recurrence or metastasis is clinically suspected. The present case report describes a 70-year-old man diagnosed with three primary malignancies: jaw OS, myelodysplastic syndrome and colorectal adenocarcinoma. To the best of our knowledge, this combination of malignancies has not been reported previously. Until now, there is no specific protocol of postoperative FDG-PET for OS patients. Few studies have described OS follow-up methods; therefore, there is no consensus on proper follow-up methods. In the present case report, the colorectal early-stage SPM was observed, without any symptoms, by FDG-PET/computed tomography. To avoid overlooking solid SPMs, it is suggested that FDG-PET should be performed in the long-term follow-up of OS patients.

Concomitant endometrial and cervical adenocarcinoma: A case report and literature review

RATIONALE

Concomitant malignancy of the endometrium and cervix is extremely rare.

PATIENT CONCERNS

A 56-year-old female presented to the Women's Hospital, School of Medicine, Zhejiang University, complaining of irregular vaginal bleeding. The human papillomavirus test (type 18/45) was positive. We performed dilation and curettage; pathology revealed moderately differentiated endometrial carcinoma exhibiting squamous differentiation. The epithelium of the cervical uterus was atypical upon biopsy.

DIAGNOSES

Histological and immunochemical tests confirmed a diagnosis of endometrial carcinoma concomitant with cervical adenocarcinoma.

INTERVENTIONS

She underwent laparoscopic staging surgery.

OUTCOMES

The patient fully recovered with only surgery.

LESSONS

Endometrial carcinoma concomitant with cervical adenocarcinoma is very rare. It is imperative to schedule adequate examination, and to perform careful preoperative diagnosis and appropriate treatment to minimize relapse.

Codon 104 variation of p53 gene provides adaptive apoptotic responses to extreme environments in mammals of the Tibet plateau

Mutational changes in p53 correlate well with tumorigenesis. Remarkably, however, relatively little is known about the role that p53 variations may play in environmental adaptation. Here we report that codon asparagine-104 (104N) and glutamic acid-104 (104E), respectively, of the p53 gene in the wild zokor (Myospalax baileyi) and root vole (Microtus oeconomus) are adaptively variable, meeting the environmental stresses of the Tibetan plateau. They differ from serine-104 (104S) seen in other rodents, including the lowland subterranean zokor Myospalax cansus, and from serine 106 (106S) in humans. Based on site-directed mutational analysis in human cell lines, the codon 104N variation in M. baileyi is responsible for the adaptive balance of the transactivation of apoptotic genes under hypoxia, cold, and acidic stresses. The 104E p53 variant in Microtus oeconomus suppresses apoptotic gene transactivation and cell apoptosis. Neither 104N nor 104E affects the cell-cycle genes. We propose that these variations in p53 codon 104 are an outcome of environmental adaptation and evolutionary selection that enhance cellular strategies for surviving the environmental stresses of hypoxia and cold (in M. baileyi and M. oeconomus) and hypercapnia (in M. baileyi) in the stressful environments of the Qinghai-Tibet plateau.