Assays and methods for cell proliferation-targeted treatment therapies

What is claimed is: 1 . A method for detecting cancer cells susceptible to treatment with a polyamine transport inhibitor (PTI), comprising: receiving a cell sample from a patient; presenting a first reagent, a second reagent, a third reagent, and a fourth reagent to the cell sample to detect differential levels of ATP13A3, c-myc, Cav-1, and Cav-2 or nucleic acid sequences encoding the same, in the cell sample, wherein the first reagent is specific to ATP13A3, the second reagent is specific to c-myc, the third reagent is specific to Cav-1, and the fourth reagent is specific to Cav-2 in the cell sample, under conditions to detect binding of the first, second, third and fourth reagents to ATP13A3, c-myc, Cav-1, and Cav-2, respectively, or hybridization of the first, second, third and fourth reagents to the nucleic acid sequences, determining that cancer cells in the patient are treatable with a polyamine transport inhibitor if a higher level of ATP13A3, Cav-2, and c-myc and a basal or low level of Cav-1, or nucleic acid sequences encoding same, than in normal cells was determined to be present in the cell sample. 2 . The method of claim 1 wherein first, second, third and fourth reagents are antibodies. 3 . The method of claim 2 , wherein conditions to detect binding of the first, second, third and fourth reagents comprises conducting an enzyme linked immunosorbent assay or a western blot method, wherein the first, second, third and fourth reagents comprise a detectable marker. 4 . The method of claim 1 , wherein the first reagent, second reagent, third reagent, and fourth reagent are primers directed to sequences that encode ATP13A3, c-myc, Cav-1, and Cav-2 respectively, and wherein conditions to detect hybridization comprises subjecting the cell sample and first, second, third and fourth reagents to PCR. 5 . The method of claim 1 , wherein the cell sample comprises intact cells or tissue, and the first reagent comprises a first antibody A to detect ATP13A3, the second reagent comprises a first antibody B to detect c-myc, the third reagent comprises a first antibody C to detect Cav-1, and the fourth reagent comprises a first antibody D to detect Cav-2 in the cell sample, and wherein conditions to detect binding comprises conducting an immunocytochemistry or immunohistochemistry method on the cell sample. 6 . The method of claim 5 , wherein the first antibodies each comprise a label. 7 . The method of claim 5 , further comprising presenting a second antibody A specific to and capable of binding the first antibody A , a second antibody B specific to and capable of binding the first antibody B , a second antibody C specific to and capable of binding the first antibody C , and a second antibody D specific to and capable of binding the first antibody D . 8 . The method of claim 7 , wherein each of the second antibodies comprise a label. 9 . (canceled) 10 . (canceled) 11 . (canceled) 12 . The method of claim 1 , wherein the method further comprises identifying high levels of expression of c-Raf in the cancer cells. 13 . The method of claim 1 , further comprising administering a therapeutically effective amount of a polyamine biosynthesis inhibitor and/or a PTI to the patient upon determining cancer cells in the patient are treatable. 14 - 69 . (canceled) 70 . An assay system to identify cells having polyamine transport activity (PTA) for targeted treatment of cells, said assay system comprising: a substrate configured to bind proteins in a cell sample; and two or more antibodies selected from the group consisting of a primary antibody A that detects ATP13A3, a primary antibody B that detects c-myc, a primary antibody C that detects Cav-1 and a primary antibody D that detects Cav-2 in a sample, wherein upon contacting the cell sample and the primary antibodies A-D to the substrate, the primary antibodies A-D bind specifically to proteins ATP13A3, c-myc, Cav-1, and Cav-2, respectively, in the cell sample, wherein the primary antibodies A-D are each individually linked to different colored fluorophores, such that visualization comprises a colored panel readout of the relative expression of each protein and differential expression levels of the proteins can be detected, and wherein a detection of high levels of ATP13A3, c-myc, and/or Cav-2, and/or a low level of Cav-1 in the sample is indicative of PTA (polyamine transport activity) in the cell sample. 71 . (canceled) 72 . (canceled) 73 . A method for detecting cancer cells susceptible to treatment with a polyamine transport inhibitor (PTI), comprising: receiving a cell sample from a patient; presenting at least a first and a second reagent to the cell sample to detect differential levels of two or more of ATP13A3, c-myc, Cav-1, and Cav-2 or nucleic acid sequences encoding the same, in the cell sample, under conditions to detect binding of the at least first and second reagents to two or more of ATP13A3, c-myc, Cav-1, and Cav-2, or hybridization of at least the first and second reagents to nucleic acid sequences. 74 . The method of claim 73 , wherein the first and second reagents are specific to ATP13A3 and Cav-1, respectively, and wherein the method further comprises determining that cancer cells in the patient are treatable with a polyamine transport inhibitor if a higher level of ATP13A3 and a lower or basal level of Cav-1, or nucleic acid sequences encoding same, relative to normal cells, was determined to be present in the cell sample; and wherein the hi her level of ATP13A3 is at least 50-100% higher than basal level, and wherein the lower level of Cav-1 is within 20% of basal level, relative to normal cells. 75 . (canceled) 76 . The method of claim 73 , wherein the first and second reagents are specific to ATP13A3 and c-myc, respectively, and wherein the method further comprises determining that cancer cells in the patient are treatable with a polyamine transport inhibitor if a higher level of ATP13A3 and a higher level of c-myc, or nucleic acid sequences encoding same, relative to normal cells was determined to be present in the cell sample; and wherein the higher level of ATP13A3 is at least 50-100% higher than basal level, and wherein higher level of c-myc is at least 50-100% higher than basal level, relative to normal cells. 77 . (canceled) 78 . The method of claim 73 , wherein the first and second reagents are specific to Cav-1 and Cav-2, respectively, and wherein the method further comprises determining that cancer cells in the patient are treatable with a polyamine transport inhibitor if a higher level of Cav-2 and a lower or basal level of Cav-1, or nucleic acid sequences encoding same, relative to normal cells was determined to be present in the cell sample. 79 . The method of claim 73 , wherein the first and second reagents are specific to ATP13A3 and Cav-2, respectively, and wherein the method further comprises determining that cancer cells in the patient are treatable with a polyamine transport inhibitor if a higher level of ATP13A3 and a higher level of Cav-2, or nucleic acid sequences encoding same, relative to normal cells was determined to be present in the cell sample; and wherein the higher level of ATP13A3 is at least 50-110% higher than basal level and wherein higher level of Cav-2 is within 20% of basal level relative to normal cells. 80 . (canceled) 81 . The method of cla