In canines Polysomy plays a role in canine
leukemia, hemangiopericytomas, and
thyroid tumors. Abnormalities of
chromosome 13 have been observed in canine
osteoid chondrosarcoma and
lymphosarcoma.
Trisomy 13 in dogs with
lymphosarcoma show a longer duration of first
remission (medicine) and survival, responding well to treatments with
chemotherapeutic agents. Polysomy of chromosome 13 (Polysomy 13) is significant in the development of prostate cancer and is often caused by centric fusions. Polysomy of chromosomes 1, 2, 4, 5, and 25 are also frequently involved in canine tumors. Chromosome 1 may contain a
gene responsible for
tumor development and lead to changes in the
karyotype, including fusion of the
centromere, or centric fusions.
In humans Sex chromosomes Some of the most frequent
genetic disorders are abnormalities of sex chromosomes, but polysomies rarely occur.
49,XXXXY chromosome polysomy occurs every 1 in 85,000 newborn males. The incidence of other X polysomies (
48,XXXX,
48,XXXY,
48,XXYY) is more rare than 49,XXXXY. Polysomy Y (
47,XYY; 48,XYYY; 48,XXYY; 49,XXYYY) occurs in 1 out of 975 males and may cause psychiatric, social, and
somatic abnormalities. Polysomy X may cause
mental and developmental retardation and
physical malformation.
Klinefelter syndrome is an example of human polysomy X with the karyotype 47, XXY. X chromosome polysomies can be inherited from either a single
maternal (49, X polysomies) or
paternal (48, X polysomies) X chromosome. In
colorectal cancer, EGFR expression is decreased with polysomy 7, which makes polysomy 7 easier to detect and could be used to prevent patients from having unnecessary cancer treatment.
Chromosome 8 Tetrasomy and hexasomy 8 are rare compared to trisomy 8, which is the most common karyotypic finding in
acute myeloid leukemia (AML) and
myelodysplastic syndromes (MDS). AML, MDS, or myeloproliferative disorder (MPD) with a high incidence of secondary diseases and a six-month survival rate are associated with a polysomy 8
syndrome.
Chromosome 17 Overexpression of the
HER2/neu gene on
chromosome 17 and some type of polysomy has been reported in 8-68% of
breast carcinomas. If theHER-2/neu gene does not
amplify in the case of polysomy, proteins may be overexpressed and could lead to
tumerogenesis. Polysomy 17 may complicate the interpretation of HER2 testing results in cancer patients. Chromosome 17 polysomy may not be present when the
centromere is amplified, so it was later discovered that polysomy 17 is rare. This was discovered using
array comparative genomic hybridization, a DNA-based alternative for clinical evaluation of HER2
gene copy number.
Trisomy 21 Trisomy 21 is a form of Down syndrome that occurs when there is an extra copy of chromosome 21. The result is a genetic condition in which a person has 47 chromosomes instead of the usual 46. During egg or sperm development the 21st chromosome does not separate during either the egg or sperm development. The result is a cell that has 24 chromosomes. This extra chromosome may cause problems with the manner in which the body and brain develop.
Tetrasomy 9p Tetrasomy 9p is a rare condition in which people have a small extra chromosome that contains two copies of part of chromosome 9, in addition to having two normal chromosome 9's as well. This condition may be diagnosed by analyzing a person's blood sample since 9p is found in high concentrations in the blood. Ultrasound is another tool that may be utilized to identify tetrasomy 9p in infants prior to birth. Prenatal ultrasound may reveal several common characteristics including: growth restriction, ventriculomegaly, cleft lip or palate, and renal anomalies.
Tetrasomy 18p Tetrasomy 18p occurs when the short arm of the 18th chromosome appears four times, rather than twice, in the cells of the body. It is considered to be a rare disease and usually is not inherited. The mechanism of 18p formation appears to be the result of two independent events: centromeric misdivision and nondisjunction. Characteristic features of tetrasomy 18p include, but are not limited to: growth retardation, scoliosis, abnormal brain MRI, developmental delays, and strabismus. ==In insects==