Στην βιολογία, το περιβάλλον μπορεί να καθοριστεί σαν ενα σύνολο κλιματικών, βιοτικών, κοινωνικών και εδαφικών παραγόντων που δρουν σε έναν οργανισμό και καθορίζουν την ανάπτυξη και την επιβίωση του. Έτσι, περιλαμβάνει οτιδήποτε μπορεί να επηρεάσει άμεσα τον μεταβολισμό ή τη συμπεριφορά των ζωντανών οργανισμών ή ειδών, όπως το φως, ο αέρας, το νερό, το έδαφος και άλλοι παράγοντες. Δείτε επίσης το άρθρο για το φυσικό περιβάλλον και τη φυσική επιλογή.
Στην αρχιτεκτονική, την εργονομία και την ασφάλεια στην εργασία, περιβάλλον είναι το σύνολο των χαρακτηριστικών ενός δωματίου ή κτιρίου που επηρεάζουν την ποιότητα ζωής και την αποδοτικότητα, περιλαμβανομένων των διαστάσεων και της διαρρύθμισης των χώρων διαβίωσης και της επίπλωσης, του φωτισμού, του αερισμού, της θερμοκρασίας, του θορύβου κλπ. Επίσης μπορεί να αναφέρεται στο σύνολο των δομικών κατασκευών. Δείτε επίσης το άρθρο για το δομημένο περιβάλλον.
Στην ψυχολογία, περιβαλλοντισμός είναι η θεωρία ότι το περιβάλλον (με τη γενική και κοινωνική έννοια) παίζει μεγαλύτερο ρόλο από την κληρονομικότητα καθορίζοντας την ανάπτυξη ενός ατόμου. Συγκεκριμένα, το περιβάλλον είναι ένας σημαντικός παράγοντας πολλών ψυχολογικών θεωριών.
Στην τέχνη, το περιβάλλον αποτελεί κινητήριο μοχλό και μούσα εμπνέοντας τους ζωγράφους ή τους ποιητές. Σε όλες τις μορφές της Τέχνης αποτελεί έμπνευση και οι Καλές Τέχνες φανερώνουν την επιρροή οπού άσκησε σε όλους τους καλλιτέχνες με όποιο είδος Τέχνης κι αν ασχολούνται. Ο άνθρωπος μέσα στο περιβάλλον δημιουργεί Μουσική, Ζωγραφική, Ποίηση, Γλυπτική, χορό, τραγούδι, θέατρο, αλλά και όλες οι μορφές τέχνης έχουν άμεση έμπνευση από το περιβάλλον.

Κυριακή 14 Μαΐου 2017

Mismatch repair cancer syndrome (MMRCS) : Multiple hyperpigmented and hypopigmented skin areas, brain malformations, pilomatricomas, a second childhood malignancy, a Lynch syndrome (LS)-associated tumour in a relative and parental consanguinity.

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The mismatch repair (MMR) machinery contributes to genome integrity and the MLH1, MSH2, MSH6 and PMS2 genes play a crucial role in this process. MMR corrects single base-pair mismatches and small insertion-deletion loops that arise during replication. Moreover, the MMR system is involved in the cellular response to a variety of agents that damage DNA1 and in immunoglobulin class switch recombination.2 Heterozygous germline mutations in MLH1, MSH2, MSH6 and PMS2 cause Lynch syndrome (LS), an autosomal dominant cancer syndrome associated with hereditary non-polyposis colorectal cancer (HNPCC), endometrium carcinoma and other malignancies, occurring on average in the fourth and fifth decade of life. Notably, LS associated tumors display somatic loss of the remaining wild type MLH1, MSH2, MSH6 or PMS2 allele and evidence of microsatellite instability (for review see 3).




In some cases of CMMR-D, areas of skin hypo-pigmentation have been reported.12–15 However, signs reminiscent of neurofibromatosis type 1 (NF1), in particular café-aulait macules (CALMs), are much more common and were observed in the majority of the reported cases (63/92). There are only 2 patients explicitly reported to lack CALMs or other signs of NF1.9,13 Interestingly, several reports stress that CALMs in patients with CMMR-D differ from typical NF1-associated CALMs in that they vary in their degree of pigmentation, have irregular borders, and may display a segmental distribution. Other features of NF1 found in CMMR-D patients include skinfold freckling, Lisch nodules, neurofibromas and tibial pseudarthrosis. Hence, it is not surprising that a number of CMMR-D cases were initially diagnosed as having NF1. It has been speculated that the NF1-like clinical features in CMMR-D result from germline mosaicism arising early during embryonic development. The identification of a truncating NF1 mutation in the blood of one patient16 and data supporting the notion that the NF1 gene is a mutational target of MMR deficiency17 are in line with this assumption. However, extensive mutation analysis in other CMMR-D patients has not confirmed this theory (see 8,12,18 and papers cited therein).


A review of the literature suggests that the clinical features in patients with biallelic germline mutations of MLH1 or MSH2 differ from those with biallelic germline mutations of MSH6 or PMS2 (Table 2). Hematologic malignancies appear to occur more frequently in patients with MLH1 or MSH2 mutations than in patients with mutations of MSH6 or PMS2. In contrast, the latter group appears to have a higher prevalence of brain tumors. Furthermore, tumors tend to develop earlier in MLH1 or MSH2 mutation carriers than in patients with a mutation of MSH6 or PMS2. Patients with biallelic mutations in MSH6 or PMS2 are more likely to survive their first tumors and develop a second malignancy. Overall, the prevalence of LS-associated tumors is higher in patients with biallelic MSH6 or PMS2 mutations than in biallelic MLH1 or MSH2 mutation-positive individuals (Table 2). These factors facilitate the clinical diagnosis of CMMR-D in patients with mutations of MSH6 or PMS2 and may at least partly explain the preponderance of PMS2 mutations in published cases.



Typically, confirmation of the diagnosis involves the analysis of microsatellite instability (MSI) and/or immunohistochemistry (IHC), followed by mutation analysis. MSI analysis follows current protocols used for LS-screening; however, this analysis may be unreliable in CMMR-D related brain tumors.7,11,21 IHC is a useful technique employed in patients with CMMR-D associated neoplasms including brain tumors and guides subsequent mutation analysis in the four MMR-genes. In general, a truncating mutation in PMS2 or MSH6 will result in isolated loss of these proteins, whereas a mutation in MLH1 or MSH2 will lead to concurrent loss of MLH1/PMS2 or MSH2/MSH6, respectively, since MLH1 and MSH2 are the obligatory partners in the formation of MLH1/PMS2 and MSH2/MSH6 heterodimers. Notably, in the case of an underlying missense mutation, IHC may show normal results. As CMMR-D patients constitutively lack the expression of one of the MMR genes, IHC detects loss in both neoplastic and non-neoplastic tissues. Conveniently, expression loss of one of the MMR genes can be demonstrated in blood lymphocytes (e.g. by Western blot 2). Similarly, it has been shown that MSI can be determined in normal non-neoplastic tissue of CMMR-D patients by analyzing DNA samples that are diluted to approximately 0–3 genome equivalents per PCR-reaction.22 Nonetheless, standardized procedures for the detection of MMR expression loss and MSI in non-neoplastic tissue from CMMR-D patients have not been developed to date. The diagnosis of CMMR-D should be confirmed by gene-specific mutation analysis. Reliable methods for all four MMR genes including PMS2 are now available.12 Mutation analysis will facilitate identification and surveillance of heterozygous and homozygous individuals in the wider family, and allow for informed decision-making about prenatal or pre-implantation genetic diagnosis.


Because of the wide spectrum of malignancies in CMMR-D patients, defining recommendations for surveillance of affected patients remains a challenge. Early diagnosis of CMMR-D and subsequent cancer screening at regular intervals may increase the likelihood of detecting associated cancers, such as colon cancer or brain tumors, at an operable stage. In theory, this screening could include regular exams such as: (1) clinical evaluation; (2) blood tests with full blood count and carcinoembryonic antigen (CEA); (3) magnetic resonance imaging of the brain; (4) endoscopic examination of the gastrointestinal tract; and (5) endometrial sampling and transvaginal ultrasound for endometrial and ovarian cancer. However, these recommendations rest only on clinical judgment and do not represent a standard of care. To date there is no available evidence to support any of these recommendations or to provide guidance on the optimal frequency of such tests. Likewise, there is currently no information available regarding the optimal treatment of CMMR-D patients. Several reports stress that careful attention should be given to the possibly increased cyto-toxicity and reduced efficacy of chemotherapeutic agents due to constitutionally impaired mutation repair, and the high risk of a second malignancy 6,8,14,15.






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